/***************************************************************************
* Copyright (C) 2005 to 2015 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: *
* <http://www.gnu.org/licenses/>. *
***************************************************************************/
#include "StdAfx.h"
#include <stdio.h>
#include <ctype.h>
#include <stdlib.h>
#include <string.h>
#include <wctype.h>
#include <wchar.h>
#include <math.h>
#include "speak_lib.h"
#include "speech.h"
#include "phoneme.h"
#include "synthesize.h"
#include "voice.h"
#include "translate.h"
#ifdef PLATFORM_POSIX
#include <unistd.h>
#endif
#include <locale.h>
#define N_XML_BUF 500
static const char *xmlbase = ""; // base URL from <speak>
static int namedata_ix=0;
static int n_namedata = 0;
char *namedata = NULL;
static FILE *f_input = NULL;
static int ungot_char2 = 0;
unsigned char *p_textinput;
wchar_t *p_wchar_input;
static int ungot_char;
static const char *ungot_word = NULL;
static int end_of_input;
static int ignore_text=0; // set during <sub> ... </sub> to ignore text which has been replaced by an alias
static int audio_text=0; // set during <audio> ... </audio>
static int clear_skipping_text = 0; // next clause should clear the skipping_text flag
int count_characters = 0;
static int sayas_mode;
static int sayas_start;
static int ssml_ignore_l_angle = 0;
// alter tone for announce punctuation or capitals
//static const char *tone_punct_on = "\0016T"; // add reverberation, lower pitch
//static const char *tone_punct_off = "\001T\001P";
// punctuations symbols that can end a clause
static const unsigned short punct_chars[] = {',','.','?','!',':',';',
0x00a1, // inverted exclamation
0x00bf, // inverted question
0x2013, // en-dash
0x2014, // em-dash
0x2026, // elipsis
0x037e, // Greek question mark (looks like semicolon)
0x0387, // Greek semicolon, ano teleia
0x0964, // Devanagari Danda (fullstop)
0x0589, // Armenian period
0x055d, // Armenian comma
0x055c, // Armenian exclamation
0x055e, // Armenian question
0x055b, // Armenian emphasis mark
0x060c, // Arabic ,
0x061b, // Arabic ;
0x061f, // Arabic ?
0x06d4, // Arabic .
0x0df4, // Singhalese Kunddaliya
0x0f0d, // Tibet Shad
0x0f0e,
0x1362, // Ethiopic period
0x1363,
0x1364,
0x1365,
0x1366,
0x1367,
0x1368,
0x10fb, // Georgian paragraph
0x3001, // ideograph comma
0x3002, // ideograph period
0xff01, // fullwidth exclamation
0xff0c, // fullwidth comma
0xff0e, // fullwidth period
0xff1a, // fullwidth colon
0xff1b, // fullwidth semicolon
0xff1f, // fullwidth question mark
0};
// indexed by (entry num. in punct_chars) + 1
// bits 0-7 pause x 10mS, bits 12-14 intonation type, bit 15 don't need following space or bracket
static const unsigned int punct_attributes [] = { 0,
CLAUSE_COMMA, CLAUSE_PERIOD, CLAUSE_QUESTION, CLAUSE_EXCLAMATION, CLAUSE_COLON, CLAUSE_SEMICOLON,
CLAUSE_SEMICOLON | 0x8000, // inverted exclamation
CLAUSE_SEMICOLON | 0x8000, // inverted question
CLAUSE_SEMICOLON, // en-dash
CLAUSE_SEMICOLON, // em-dash
CLAUSE_SEMICOLON | PUNCT_SAY_NAME | 0x8000, // elipsis
CLAUSE_QUESTION, // Greek question mark
CLAUSE_SEMICOLON, // Greek semicolon
CLAUSE_PERIOD | 0x8000, // Devanagari Danda (fullstop)
CLAUSE_PERIOD | 0x8000, // Armenian period
CLAUSE_COMMA, // Armenian comma
CLAUSE_EXCLAMATION | PUNCT_IN_WORD, // Armenian exclamation
CLAUSE_QUESTION | PUNCT_IN_WORD, // Armenian question
CLAUSE_PERIOD | PUNCT_IN_WORD, // Armenian emphasis mark
CLAUSE_COMMA, // Arabic ,
CLAUSE_SEMICOLON, // Arabic ;
CLAUSE_QUESTION, // Arabic question mark
CLAUSE_PERIOD, // Arabic full stop
CLAUSE_PERIOD+0x8000, // Singhalese period
CLAUSE_PERIOD+0x8000, // Tibet period
CLAUSE_PARAGRAPH,
CLAUSE_PERIOD, // Ethiopic period
CLAUSE_COMMA, // Ethiopic comma
CLAUSE_SEMICOLON, // Ethiopic semicolon
CLAUSE_COLON, // Ethiopic colon
CLAUSE_COLON, // Ethiopic preface colon
CLAUSE_QUESTION, // Ethiopic question mark
CLAUSE_PARAGRAPH, // Ethiopic paragraph
CLAUSE_PARAGRAPH, // Georgian paragraph
CLAUSE_COMMA+0x8000, // ideograph comma
CLAUSE_PERIOD+0x8000, // ideograph period
CLAUSE_EXCLAMATION+0x8000, // fullwidth
CLAUSE_COMMA+0x8000,
CLAUSE_PERIOD+0x8000,
CLAUSE_COLON+0x8000,
CLAUSE_SEMICOLON+0x8000,
CLAUSE_QUESTION+0x8000,
CLAUSE_SEMICOLON, // spare
0 };
// stack for language and voice properties
// frame 0 is for the defaults, before any ssml tags.
typedef struct {
int tag_type;
int voice_variant_number;
int voice_gender;
int voice_age;
char voice_name[40];
char language[20];
} SSML_STACK;
#define N_SSML_STACK 20
static int n_ssml_stack;
static SSML_STACK ssml_stack[N_SSML_STACK];
static espeak_VOICE base_voice;
static char base_voice_variant_name[40] = {0};
static char current_voice_id[40] = {0};
#define N_PARAM_STACK 20
static int n_param_stack;
PARAM_STACK param_stack[N_PARAM_STACK];
static int speech_parameters[N_SPEECH_PARAM]; // current values, from param_stack
int saved_parameters[N_SPEECH_PARAM]; //Parameters saved on synthesis start
const int param_defaults[N_SPEECH_PARAM] = {
0, // silence (internal use)
175, // rate wpm
100, // volume
50, // pitch
50, // range
0, // punctuation
0, // capital letters
0, // wordgap
0, // options
0, // intonation
0,
0,
0, // emphasis
0, // line length
0, // voice type
};
// additional Latin characters beyond the ascii character set
#define MAX_WALPHA 0x24f
// indexed by character - 0x80
// 0=not alphabetic, 0xff=lower case, 0xfe=no case, 0xfd=use wchar_tolower
// other=value to add to upper case to convert to lower case
static unsigned char walpha_tab[MAX_WALPHA-0x7f] = {
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 080
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 090
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0xfe, 0, 0, 0, 0, 0, // 0a0
0, 0, 0, 0, 0, 0xff, 0, 0, 0, 0, 0xfe, 0, 0, 0, 0, 0, // 0b0
32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, // 0c0
32, 32, 32, 32, 32, 32, 32, 0, 32, 32, 32, 32, 32, 32, 32, 0xff, // 0d0
0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, // 0e0
0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, // 0f0
1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, // 100
1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, // 110
1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, // 120
0xfd, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 0xfe, 1, 0xff, 1, 0xff, 1, 0xff, 1, // 130
0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 0xfe, 1, 0xff, 1, 0xff, 1, 0xff, // 140
1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, // 150
1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, // 160
1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 0xfd, 1, 0xff, 1, 0xff, 1, 0xff, 0xff, // 170
0xff, 210, 1, 0xff, 1, 0xff, 206, 1, 0xff, 205, 205, 1, 0xff, 0xfe, 79, 202, // 180
203, 1, 0xff, 205, 207, 0xff, 211, 209, 1, 0xff, 0xff, 0xfe, 211, 213, 0xff, 214, // 190
1, 0xff, 1, 0xff, 1, 0xff, 218, 1, 0xff, 218, 0xfe, 0xfe, 1, 0xff, 218, 1, // 1a0
0xff, 217, 217, 1, 0xff, 1, 0xff, 219, 1, 0xff, 0xfe, 0xfe, 1, 0xff, 0xfe, 0xff, // 1b0
0xfe, 0xfe, 0xfe, 0xfe, 2, 0xff, 0xff, 2, 0xff, 0xff, 2, 0xff, 0xff, 1, 0xff, 1, // 1c0
0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 0xff, 1, 0xff, // 1d0
1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, // 1e0
0xfe, 2, 0xff, 0xff, 1, 0xff, 0xfd, 0xfd, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, // 1f0
1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, // 200
1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, // 210
0xfd, 0xfe, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, // 220
1, 0xff, 1, 0xff, 0xfe, 0xfe, 0xfe, 0xfe, 0xfe, 0xfe, 0xfd, 1, 0xff, 0xfd, 0xfd, 0xfe, // 230
0xfe, 1, 0xff, 0xfd, 69, 71, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff, 1, 0xff}; // 240
static const short wchar_tolower[] = {
0x130, 0x069,
0x178, 0x0ff,
0x1f6, 0x195,
0x1f7, 0x1bf,
0x220, 0x19e,
0x23a, 0x2c65,
0x23d, 0x19a,
0x23e, 0x2c66,
0x243, 0x180,
0,0 };
static const short wchar_toupper[] = {
0x0b5, 0x39c,
0x0df, 0x0df,
0x0ff, 0x178,
0x131, 0x049,
0x17f, 0x053,
0x180, 0x243,
0x195, 0x1f6,
0x19a, 0x23d,
0x19e, 0x220,
0x1bf, 0x1f7,
0x1c6, 0x1c4,
0x1c9, 0x1c7,
0x1cc, 0x1ca,
0x1dd, 0x18e,
0x1f3, 0x1f1,
0,0 };
#ifdef NEED_WCHAR_FUNCTIONS
// use ctype.h functions for Latin1 (character < 0x100)
int iswalpha(int c)
{
if(c < 0x80)
return(isalpha(c));
if((c > 0x3040) && (c <= 0xa700))
return(1); // japanese, chinese characters
if(c > MAX_WALPHA)
return(0);
return(walpha_tab[c-0x80]);
}
int iswdigit(int c)
{
if(c < 0x80)
return(isdigit(c));
return(0);
}
int iswalnum(int c)
{
if(iswdigit(c))
return(1);
return(iswalpha(c));
}
int towlower(int c)
{
int x;
int ix;
if(c < 0x80)
return(tolower(c));
if((c > MAX_WALPHA) || ((x = walpha_tab[c-0x80]) >= 0xfe))
return(c);
if(x == 0xfd)
{
// special cases, lookup translation table
for(ix=0; wchar_tolower[ix] != 0; ix+=2)
{
if(wchar_tolower[ix] == c)
return(wchar_tolower[ix+1]);
}
}
return(c + x); // convert to lower case
}
int towupper(int c)
{
int ix;
// check whether a previous character code is the upper-case equivalent of this character
if(towlower(c-32) == c)
return(c-32); // yes, use it
if(towlower(c-1) == c)
return(c-1);
for(ix=0; wchar_toupper[ix] != 0; ix+=2)
{
if(wchar_toupper[ix] == c)
return(wchar_toupper[ix+1]);
}
return(c); // no
}
int iswupper(int c)
{
int x;
if(c < 0x80)
return(isupper(c));
if(((c > MAX_WALPHA) || (x = walpha_tab[c-0x80])==0) || (x == 0xff))
return(0);
return(1);
}
int iswlower(int c)
{
if(c < 0x80)
return(islower(c));
if((c > MAX_WALPHA) || (walpha_tab[c-0x80] != 0xff))
return(0);
return(1);
}
int iswspace(int c)
{
if(c < 0x80)
return(isspace(c));
if(c == 0xa0)
return(1);
return(0);
}
int iswpunct(int c)
{
if(c < 0x100)
return(ispunct(c));
return(0);
}
const wchar_t *wcschr(const wchar_t *str, int c)
{
while(*str != 0)
{
if(*str == c)
return(str);
str++;
}
return(NULL);
}
#ifndef WINCE
// wcslen() is provided by WINCE, but not the other wchar functions
const int wcslen(const wchar_t *str)
{
int ix=0;
while(*str != 0)
{
ix++;
}
return(ix);
}
#endif
float wcstod(const wchar_t *str, wchar_t **tailptr)
{
int ix;
char buf[80];
while(isspace(*str)) str++;
for(ix=0; ix<80; ix++)
{
buf[ix] = str[ix];
if(isspace(buf[ix]))
break;
}
*tailptr = (wchar_t *)&str[ix];
return(atof(buf));
}
#endif
// use internal data for iswalpha up to U+024F
// iswalpha() on Windows is unreliable (U+AA, U+BA).
int iswalpha2(int c)
{
if(c < 0x80)
return(isalpha(c));
if((c > 0x3040) && (c <= 0xa700))
return(1); // japanese, chinese characters
if(c > MAX_WALPHA)
return(iswalpha(c));
return(walpha_tab[c-0x80]);
}
int iswlower2(int c)
{
if(c < 0x80)
return(islower(c));
if(c > MAX_WALPHA)
return(iswlower(c));
if(walpha_tab[c-0x80] == 0xff)
return(1);
return(0);
}
int iswupper2(int c)
{
int x;
if(c < 0x80)
return(isupper(c));
if(c > MAX_WALPHA)
return(iswupper(c));
if(((x = walpha_tab[c-0x80]) > 0) && (x < 0xfe))
return(1);
return(0);
}
int towlower2(unsigned int c)
{
int x;
int ix;
// check for non-standard upper to lower case conversions
if(c == 'I')
{
if(translator->langopts.dotless_i)
{
c = 0x131; // I -> ı
}
}
if(c < 0x80)
return(tolower(c));
if(c > MAX_WALPHA)
return(towlower(c));
if((x = walpha_tab[c-0x80]) >= 0xfe)
return(c); // this is not an upper case letter
if(x == 0xfd)
{
// special cases, lookup translation table
for(ix=0; wchar_tolower[ix] != 0; ix+=2)
{
if(wchar_tolower[ix] == (int)c)
return(wchar_tolower[ix+1]);
}
}
return(c + x); // convert to lower case
}
int towupper2(unsigned int c)
{
int ix;
if(c > MAX_WALPHA)
return(towupper(c));
// check whether a previous character code is the upper-case equivalent of this character
if(towlower2(c-32) == (int)c)
return(c-32); // yes, use it
if(towlower2(c-1) == (int)c)
return(c-1);
for(ix=0; wchar_toupper[ix] != 0; ix+=2)
{
if(wchar_toupper[ix] == (int)c)
return(wchar_toupper[ix+1]);
}
return(c); // no
}
static int IsRomanU(unsigned int c)
{//================================
if((c=='I') || (c=='V') || (c=='X') || (c=='L'))
return(1);
return(0);
}
static void GetC_unget(int c)
{//==========================
// This is only called with UTF8 input, not wchar input
if(f_input != NULL)
ungetc(c,f_input);
else
{
p_textinput--;
*p_textinput = c;
end_of_input = 0;
}
}
int Eof(void)
{//==========
if(ungot_char != 0)
return(0);
if(f_input != 0)
return(feof(f_input));
return(end_of_input);
}
static int GetC_get(void)
{//======================
unsigned int c;
unsigned int c2;
if(f_input != NULL)
{
c = fgetc(f_input);
if(feof(f_input)) c = ' ';
if(option_multibyte == espeakCHARS_16BIT)
{
c2 = fgetc(f_input);
if(feof(f_input)) c2 = 0;
c = c + (c2 << 8);
}
return(c);
}
if(option_multibyte == espeakCHARS_WCHAR)
{
if(*p_wchar_input == 0)
{
end_of_input = 1;
return(0);
}
if(!end_of_input)
return(*p_wchar_input++);
}
else
{
if(*p_textinput == 0)
{
end_of_input = 1;
return(0);
}
if(!end_of_input)
{
if(option_multibyte == espeakCHARS_16BIT)
{
c = p_textinput[0] + (p_textinput[1] << 8);
p_textinput += 2;
return(c);
}
return(*p_textinput++ & 0xff);
}
}
return(0);
}
static int GetC(void)
{//==================
// Returns a unicode wide character
// Performs UTF8 checking and conversion
int c;
int c1;
int c2;
int cbuf[4];
int ix;
int n_bytes;
static int ungot2 = 0;
static const unsigned char mask[4] = {0xff,0x1f,0x0f,0x07};
if((c1 = ungot_char) != 0)
{
ungot_char = 0;
return(c1);
}
if(ungot2 != 0)
{
c1 = ungot2;
ungot2 = 0;
}
else
{
c1 = GetC_get();
}
if((option_multibyte == espeakCHARS_WCHAR) || (option_multibyte == espeakCHARS_16BIT))
{
count_characters++;
return(c1); // wchar_t text
}
if((option_multibyte < 2) && (c1 & 0x80))
{
// multi-byte utf8 encoding, convert to unicode
n_bytes = 0;
if(((c1 & 0xe0) == 0xc0) && ((c1 & 0x1e) != 0))
n_bytes = 1;
else
if((c1 & 0xf0) == 0xe0)
n_bytes = 2;
else
if(((c1 & 0xf8) == 0xf0) && ((c1 & 0x0f) <= 4))
n_bytes = 3;
if((ix = n_bytes) > 0)
{
c = c1 & mask[ix];
while(ix > 0)
{
if((c2 = cbuf[ix] = GetC_get()) == 0)
{
if(option_multibyte==espeakCHARS_AUTO)
option_multibyte=espeakCHARS_8BIT; // change "auto" option to "no"
GetC_unget(' ');
break;
}
if((c2 & 0xc0) != 0x80)
{
// This is not UTF8. Change to 8-bit characterset.
if((n_bytes == 2) && (ix == 1))
ungot2 = cbuf[2];
GetC_unget(c2);
break;
}
c = (c << 6) + (c2 & 0x3f);
ix--;
}
if(ix == 0)
{
count_characters++;
return(c);
}
}
// top-bit-set character is not utf8, drop through to 8bit charset case
if((option_multibyte==espeakCHARS_AUTO) && !Eof())
option_multibyte=espeakCHARS_8BIT; // change "auto" option to "no"
}
// 8 bit character set, convert to unicode if
count_characters++;
if(c1 >= 0xa0)
return(translator->charset_a0[c1-0xa0]);
return(c1);
} // end of GetC
static void UngetC(int c)
{//======================
ungot_char = c;
}
const char *WordToString2(unsigned int word)
{//============================================
// Convert a language mnemonic word into a string
int ix;
static char buf[5];
char *p;
p = buf;
for(ix=3; ix>=0; ix--)
{
if((*p = word >> (ix*8)) != 0)
p++;
}
*p = 0;
return(buf);
}
static const char *LookupSpecial(Translator *tr, const char *string, char* text_out)
{//=================================================================================
unsigned int flags[2];
char phonemes[55];
char phonemes2[55];
char *string1 = (char *)string;
flags[0] = flags[1] = 0;
if(LookupDictList(tr,&string1,phonemes,flags,0,NULL))
{
SetWordStress(tr, phonemes, flags, -1, 0);
DecodePhonemes(phonemes,phonemes2);
sprintf(text_out,"[\002%s]]",phonemes2);
return(text_out);
}
return(NULL);
}
static const char *LookupCharName(Translator *tr, int c, int only)
{//===============================================================
// Find the phoneme string (in ascii) to speak the name of character c
// Used for punctuation characters and symbols
int ix;
unsigned int flags[2];
char single_letter[24];
char phonemes[60];
char phonemes2[60];
const char *lang_name = NULL;
char *string;
static char buf[60];
buf[0] = 0;
flags[0] = 0;
flags[1] = 0;
single_letter[0] = 0;
single_letter[1] = '_';
ix = utf8_out(c,&single_letter[2]);
single_letter[2+ix]=0;
if(only)
{
string = &single_letter[2];
LookupDictList(tr, &string, phonemes, flags, 0, NULL);
}
else
{
string = &single_letter[1];
if(LookupDictList(tr, &string, phonemes, flags, 0, NULL) == 0)
{
// try _* then *
string = &single_letter[2];
if(LookupDictList(tr, &string, phonemes, flags, 0, NULL) == 0)
{
// now try the rules
single_letter[1] = ' ';
TranslateRules(tr, &single_letter[2], phonemes, sizeof(phonemes), NULL,0,NULL);
}
}
}
if((only==0) && ((phonemes[0] == 0) || (phonemes[0] == phonSWITCH)) && (tr->translator_name != L('e','n')))
{
// not found, try English
SetTranslator2("en");
string = &single_letter[1];
single_letter[1] = '_';
if(LookupDictList(translator2, &string, phonemes, flags, 0, NULL) == 0)
{
string = &single_letter[2];
LookupDictList(translator2, &string, phonemes, flags, 0, NULL);
}
if(phonemes[0])
{
lang_name = "en";
}
else
{
SelectPhonemeTable(voice->phoneme_tab_ix); // revert to original phoneme table
}
}
if(phonemes[0])
{
if(lang_name)
{
SetWordStress(translator2, phonemes, flags, -1, 0);
DecodePhonemes(phonemes,phonemes2);
sprintf(buf,"[\002_^_%s %s _^_%s]]","en",phonemes2,WordToString2(tr->translator_name));
SelectPhonemeTable(voice->phoneme_tab_ix); // revert to original phoneme table
}
else
{
SetWordStress(tr, phonemes, flags, -1, 0);
DecodePhonemes(phonemes,phonemes2);
sprintf(buf,"[\002%s]] ",phonemes2);
}
}
else
if(only == 0)
{
strcpy(buf,"[\002(X1)(X1)(X1)]]");
}
return(buf);
}
int Read4Bytes(FILE *f)
{//====================
// Read 4 bytes (least significant first) into a word
int ix;
unsigned char c;
int acc=0;
for(ix=0; ix<4; ix++)
{
c = fgetc(f) & 0xff;
acc += (c << (ix*8));
}
return(acc);
}
static int LoadSoundFile(const char *fname, int index)
{//===================================================
FILE *f;
char *p;
int *ip;
int length;
char fname_temp[100];
char fname2[sizeof(path_home)+13+40];
if(fname == NULL)
{
// filename is already in the table
fname = soundicon_tab[index].filename;
}
if(fname==NULL)
return(1);
if(fname[0] != '/')
{
// a relative path, look in espeak-data/soundicons
sprintf(fname2,"%s%csoundicons%c%s",path_home,PATHSEP,PATHSEP,fname);
fname = fname2;
}
f = NULL;
#ifdef PLATFORM_POSIX
if((f = fopen(fname,"rb")) != NULL)
{
int ix;
int fd_temp;
int header[3];
char command[sizeof(fname2)+sizeof(fname2)+40];
fseek(f,20,SEEK_SET);
for(ix=0; ix<3; ix++)
header[ix] = Read4Bytes(f);
// if the sound file is not mono, 16 bit signed, at the correct sample rate, then convert it
if((header[0] != 0x10001) || (header[1] != samplerate) || (header[2] != samplerate*2))
{
fclose(f);
f = NULL;
strcpy(fname_temp,"/tmp/espeakXXXXXX");
if((fd_temp = mkstemp(fname_temp)) >= 0)
{
close(fd_temp);
sprintf(command,"sox \"%s\" -r %d -c1 -t wav %s\n", fname, samplerate, fname_temp);
if(system(command) == 0)
{
fname = fname_temp;
}
}
}
}
#endif
if(f == NULL)
{
f = fopen(fname,"rb");
if(f == NULL)
{
// fprintf(stderr,"Can't read temp file: %s\n",fname);
return(3);
}
}
length = GetFileLength(fname);
fseek(f,0,SEEK_SET);
if((p = (char *)realloc(soundicon_tab[index].data, length)) == NULL)
{
fclose(f);
return(4);
}
length = fread(p,1,length,f);
fclose(f);
remove(fname_temp);
ip = (int *)(&p[40]);
soundicon_tab[index].length = (*ip) / 2; // length in samples
soundicon_tab[index].data = p;
return(0);
} // end of LoadSoundFile
static int LookupSoundicon(int c)
{//==============================
// Find the sound icon number for a punctuation chatacter
int ix;
for(ix=N_SOUNDICON_SLOTS; ix<n_soundicon_tab; ix++)
{
if(soundicon_tab[ix].name == c)
{
if(soundicon_tab[ix].length == 0)
{
if(LoadSoundFile(NULL,ix)!=0)
return(-1); // sound file is not available
}
return(ix);
}
}
return(-1);
}
static int LoadSoundFile2(const char *fname)
{//=========================================
// Load a sound file into one of the reserved slots in the sound icon table
// (if it'snot already loaded)
int ix;
static int slot = -1;
for(ix=0; ix<n_soundicon_tab; ix++)
{
if(((soundicon_tab[ix].filename != NULL) && strcmp(fname, soundicon_tab[ix].filename) == 0))
return(ix); // already loaded
}
// load the file into the next slot
slot++;
if(slot >= N_SOUNDICON_SLOTS)
slot = 0;
if(LoadSoundFile(fname, slot) != 0)
return(-1);
soundicon_tab[slot].filename = (char *)realloc(soundicon_tab[ix].filename, strlen(fname)+1);
strcpy(soundicon_tab[slot].filename, fname);
return(slot);
}
static int AnnouncePunctuation(Translator *tr, int c1, int *c2_ptr, char *output, int *bufix, int end_clause)
{//=============================================================================================================
// announce punctuation names
// c1: the punctuation character
// c2: the following character
int punct_count;
const char *punctname = NULL;
int soundicon;
int attributes;
int short_pause;
int c2;
int len;
int bufix1;
char buf[200];
char buf2[80];
char ph_buf[30];
c2 = *c2_ptr;
buf[0] = 0;
if((soundicon = LookupSoundicon(c1)) >= 0)
{
// add an embedded command to play the soundicon
sprintf(buf,"\001%dI ",soundicon);
UngetC(c2);
}
else
{
if((c1 == '.') && (end_clause) && (c2 != '.'))
{
if(LookupSpecial(tr, "_.p", ph_buf))
{
punctname = ph_buf; // use word for 'period' instead of 'dot'
}
}
if(punctname == NULL)
{
punctname = LookupCharName(tr, c1, 0);
}
if(punctname == NULL)
return(-1);
if((*bufix==0) || (end_clause ==0) || (tr->langopts.param[LOPT_ANNOUNCE_PUNCT] & 2))
{
punct_count=1;
while((c2 == c1) && (c1 != '<')) // don't eat extra '<', it can miss XML tags
{
punct_count++;
c2 = GetC();
}
*c2_ptr = c2;
if(end_clause)
{
UngetC(c2);
}
if(punct_count==1)
{
// sprintf(buf,"%s %s %s",tone_punct_on,punctname,tone_punct_off);
sprintf(buf," %s",punctname); // we need the space before punctname, to ensure it doesn't merge with the previous word (eg. "2.-a")
}
else
if(punct_count < 4)
{
buf[0] = 0;
if(embedded_value[EMBED_S] < 300)
sprintf(buf,"\001+10S"); // Speak punctuation name faster, unless we are already speaking fast. It would upset Sonic SpeedUp
while(punct_count-- > 0)
{
sprintf(buf2," %s",punctname);
strcat(buf, buf2);
}
if(embedded_value[EMBED_S] < 300)
{
sprintf(buf2," \001-10S");
strcat(buf, buf2);
}
}
else
{
sprintf(buf," %s %d %s",
punctname,punct_count,punctname);
}
}
else
{
// end the clause now and pick up the punctuation next time
UngetC(c2);
if(option_ssml)
{
if((c1 == '<') || (c1 == '&'))
ssml_ignore_l_angle = c1; // this was < which was converted to <, don't pick it up again as <
}
ungot_char2 = c1;
buf[0] = ' ';
buf[1] = 0;
}
}
bufix1 = *bufix;
len = strlen(buf);
strcpy(&output[*bufix],buf);
*bufix += len;
if(end_clause==0)
return(-1);
if(c1 == '-')
return(CLAUSE_NONE); // no pause
attributes = punct_attributes[lookupwchar(punct_chars,c1)];
short_pause = CLAUSE_SHORTFALL;
if((attributes & CLAUSE_BITS_INTONATION) == 0x1000)
short_pause = CLAUSE_SHORTCOMMA;
if((bufix1 > 0) && !(tr->langopts.param[LOPT_ANNOUNCE_PUNCT] & 2))
{
if((attributes & ~0x8000) == CLAUSE_SEMICOLON)
return(CLAUSE_SHORTFALL);
return(short_pause);
}
if(attributes & CLAUSE_BIT_SENTENCE)
return(attributes);
return(short_pause);
} // end of AnnouncePunctuation
#define SSML_SPEAK 1
#define SSML_VOICE 2
#define SSML_PROSODY 3
#define SSML_SAYAS 4
#define SSML_MARK 5
#define SSML_SENTENCE 6
#define SSML_PARAGRAPH 7
#define SSML_PHONEME 8
#define SSML_SUB 9
#define SSML_STYLE 10
#define SSML_AUDIO 11
#define SSML_EMPHASIS 12
#define SSML_BREAK 13
#define SSML_IGNORE_TEXT 14
#define HTML_BREAK 15
#define HTML_NOSPACE 16 // don't insert a space for this element, so it doesn't break a word
#define SSML_CLOSE 0x20 // for a closing tag, OR this with the tag type
// these tags have no effect if they are self-closing, eg. <voice />
static char ignore_if_self_closing[] = {0,1,1,1,1,0,0,0,0,1,1,0,1,0,1,0,0,0,0};
static MNEM_TAB ssmltags[] = {
{"speak", SSML_SPEAK},
{"voice", SSML_VOICE},
{"prosody", SSML_PROSODY},
{"say-as", SSML_SAYAS},
{"mark", SSML_MARK},
{"s", SSML_SENTENCE},
{"p", SSML_PARAGRAPH},
{"phoneme", SSML_PHONEME},
{"sub", SSML_SUB},
{"tts:style", SSML_STYLE},
{"audio", SSML_AUDIO},
{"emphasis", SSML_EMPHASIS},
{"break", SSML_BREAK},
{"metadata", SSML_IGNORE_TEXT},
{"br", HTML_BREAK},
{"li", HTML_BREAK},
{"dd", HTML_BREAK},
{"img", HTML_BREAK},
{"td", HTML_BREAK},
{"h1", SSML_PARAGRAPH},
{"h2", SSML_PARAGRAPH},
{"h3", SSML_PARAGRAPH},
{"h4", SSML_PARAGRAPH},
{"hr", SSML_PARAGRAPH},
{"script", SSML_IGNORE_TEXT},
{"style", SSML_IGNORE_TEXT},
{"font", HTML_NOSPACE},
{"b", HTML_NOSPACE},
{"i", HTML_NOSPACE},
{"strong", HTML_NOSPACE},
{"em", HTML_NOSPACE},
{"code", HTML_NOSPACE},
{NULL,0}};
static const char *VoiceFromStack()
{//================================
// Use the voice properties from the SSML stack to choose a voice, and switch
// to that voice if it's not the current voice
int ix;
const char *p;
SSML_STACK *sp;
const char *v_id;
int voice_name_specified;
int voice_found;
espeak_VOICE voice_select;
static char voice_name[40];
char language[40];
char buf[80];
strcpy(voice_name,ssml_stack[0].voice_name);
strcpy(language,ssml_stack[0].language);
voice_select.age = ssml_stack[0].voice_age;
voice_select.gender = ssml_stack[0].voice_gender;
voice_select.variant = ssml_stack[0].voice_variant_number;
voice_select.identifier = NULL;
for(ix=0; ix<n_ssml_stack; ix++)
{
sp = &ssml_stack[ix];
voice_name_specified = 0;
if((sp->voice_name[0] != 0) && (SelectVoiceByName(NULL,sp->voice_name) != NULL))
{
voice_name_specified = 1;
strcpy(voice_name, sp->voice_name);
language[0] = 0;
voice_select.gender = 0;
voice_select.age = 0;
voice_select.variant = 0;
}
if(sp->language[0] != 0)
{
strcpy(language, sp->language);
// is this language provided by the base voice?
p = base_voice.languages;
while(*p++ != 0)
{
if(strcmp(p, language) == 0)
{
// yes, change the language to the main language of the base voice
strcpy(language, &base_voice.languages[1]);
break;
}
p += (strlen(p) + 1);
}
if(voice_name_specified == 0)
voice_name[0] = 0; // forget a previous voice name if a language is specified
}
if(sp->voice_gender != 0)
{
voice_select.gender = sp->voice_gender;
}
if(sp->voice_age != 0)
voice_select.age = sp->voice_age;
if(sp->voice_variant_number != 0)
voice_select.variant = sp->voice_variant_number;
}
voice_select.name = voice_name;
voice_select.languages = language;
v_id = SelectVoice(&voice_select, &voice_found);
if(v_id == NULL)
return("default");
if((strchr(v_id, '+') == NULL) && ((voice_select.gender == 0) || (voice_select.gender == base_voice.gender)) && (base_voice_variant_name[0] != 0))
{
// a voice variant has not been selected, use the original voice variant
sprintf(buf, "%s+%s", v_id, base_voice_variant_name);
strncpy0(voice_name, buf, sizeof(voice_name));
return(voice_name);
}
return(v_id);
} // end of VoiceFromStack
static void ProcessParamStack(char *outbuf, int *outix)
{//====================================================
// Set the speech parameters from the parameter stack
int param;
int ix;
int value;
char buf[20];
int new_parameters[N_SPEECH_PARAM];
static char cmd_letter[N_SPEECH_PARAM] = {0, 'S','A','P','R', 0, 'C', 0, 0, 0, 0, 0, 'F'}; // embedded command letters
for(param=0; param<N_SPEECH_PARAM; param++)
new_parameters[param] = -1;
for(ix=0; ix<n_param_stack; ix++)
{
for(param=0; param<N_SPEECH_PARAM; param++)
{
if(param_stack[ix].parameter[param] >= 0)
new_parameters[param] = param_stack[ix].parameter[param];
}
}
for(param=0; param<N_SPEECH_PARAM; param++)
{
if((value = new_parameters[param]) != speech_parameters[param])
{
buf[0] = 0;
switch(param)
{
case espeakPUNCTUATION:
option_punctuation = value-1;
break;
case espeakCAPITALS:
option_capitals = value;
break;
case espeakRATE:
case espeakVOLUME:
case espeakPITCH:
case espeakRANGE:
case espeakEMPHASIS:
sprintf(buf,"%c%d%c",CTRL_EMBEDDED,value,cmd_letter[param]);
break;
}
speech_parameters[param] = new_parameters[param];
strcpy(&outbuf[*outix],buf);
*outix += strlen(buf);
}
}
} // end of ProcessParamStack
static PARAM_STACK *PushParamStack(int tag_type)
{//=============================================
int ix;
PARAM_STACK *sp;
sp = ¶m_stack[n_param_stack];
if(n_param_stack < (N_PARAM_STACK-1))
n_param_stack++;
sp->type = tag_type;
for(ix=0; ix<N_SPEECH_PARAM; ix++)
{
sp->parameter[ix] = -1;
}
return(sp);
} // end of PushParamStack
static void PopParamStack(int tag_type, char *outbuf, int *outix)
{//==============================================================
// unwind the stack up to and including the previous tag of this type
int ix;
int top = 0;
if(tag_type >= SSML_CLOSE)
tag_type -= SSML_CLOSE;
for(ix=0; ix<n_param_stack; ix++)
{
if(param_stack[ix].type == tag_type)
{
top = ix;
}
}
if(top > 0)
{
n_param_stack = top;
}
ProcessParamStack(outbuf, outix);
} // end of PopParamStack
static wchar_t *GetSsmlAttribute(wchar_t *pw, const char *name)
{//============================================================
// Gets the value string for an attribute.
// Returns NULL if the attribute is not present
int ix;
static wchar_t empty[1] = {0};
while(*pw != 0)
{
if(iswspace(pw[-1]))
{
ix = 0;
while(*pw == name[ix])
{
pw++;
ix++;
}
if(name[ix]==0)
{
// found the attribute, now get the value
while(iswspace(*pw)) pw++;
if(*pw == '=') pw++;
while(iswspace(*pw)) pw++;
if((*pw == '"') || (*pw == '\'')) // allow single-quotes ?
return(pw+1);
else
return(empty);
}
}
pw++;
}
return(NULL);
} // end of GetSsmlAttribute
static int attrcmp(const wchar_t *string1, const char *string2)
{//============================================================
int ix;
if(string1 == NULL)
return(1);
for(ix=0; (string1[ix] == string2[ix]) && (string1[ix] != 0); ix++)
{
}
if(((string1[ix]=='"') || (string1[ix]=='\'')) && (string2[ix]==0))
return(0);
return(1);
}
static int attrlookup(const wchar_t *string1, const MNEM_TAB *mtab)
{//================================================================
int ix;
for(ix=0; mtab[ix].mnem != NULL; ix++)
{
if(attrcmp(string1,mtab[ix].mnem) == 0)
return(mtab[ix].value);
}
return(mtab[ix].value);
}
static int attrnumber(const wchar_t *pw, int default_value, int type)
{//==================================================================
int value = 0;
if((pw == NULL) || !IsDigit09(*pw))
return(default_value);
while(IsDigit09(*pw))
{
value = value*10 + *pw++ - '0';
}
if((type==1) && (towlower(*pw)=='s'))
{
// time: seconds rather than ms
value *= 1000;
}
return(value);
} // end of attrnumber
static int attrcopy_utf8(char *buf, const wchar_t *pw, int len)
{//============================================================
// Convert attribute string into utf8, write to buf, and return its utf8 length
unsigned int c;
int ix = 0;
int n;
int prev_c = 0;
if(pw != NULL)
{
while((ix < (len-4)) && ((c = *pw++) != 0))
{
if((c=='"') && (prev_c != '\\'))
break; // " indicates end of attribute, unless preceded by backstroke
n = utf8_out(c,&buf[ix]);
ix += n;
prev_c = c;
}
}
buf[ix] = 0;
return(ix);
} // end of attrcopy_utf8
static int attr_prosody_value(int param_type, const wchar_t *pw, int *value_out)
{//=============================================================================
int sign = 0;
wchar_t *tail;
double value;
while(iswspace(*pw)) pw++;
if(*pw == '+')
{
pw++;
sign = 1;
}
if(*pw == '-')
{
pw++;
sign = -1;
}
value = (double)wcstod(pw,&tail);
if(tail == pw)
{
// failed to find a number, return 100%
*value_out = 100;
return(2);
}
if(*tail == '%')
{
if(sign != 0)
value = 100 + (sign * value);
*value_out = (int)value;
return(2); // percentage
}
if((tail[0]=='s') && (tail[1]=='t'))
{
#ifdef PLATFORM_RISCOS
*value_out = 100;
#else
double x;
// convert from semitones to a frequency percentage
x = pow((double)2.0,(double)((value*sign)/12)) * 100;
*value_out = (int)x;
#endif
return(2); // percentage
}
if(param_type == espeakRATE)
{
if(sign == 0)
*value_out = (int)(value * 100);
else
*value_out = 100 + (int)(sign * value * 100);
return(2); // percentage
}
*value_out = (int)value;
return(sign); // -1, 0, or 1
} // end of attr_prosody_value
int AddNameData(const char *name, int wide)
{//========================================
// Add the name to the namedata and return its position
// (Used by the Windows SAPI wrapper)
int ix;
int len;
void *vp;
if(wide)
{
len = (wcslen((const wchar_t *)name)+1)*sizeof(wchar_t);
n_namedata = (n_namedata + sizeof(wchar_t) - 1) % sizeof(wchar_t); // round to wchar_t boundary
}
else
{
len = strlen(name)+1;
}
if(namedata_ix+len >= n_namedata)
{
// allocate more space for marker names
if((vp = realloc(namedata, namedata_ix+len + 1000)) == NULL)
return(-1); // failed to allocate, original data is unchanged but ignore this new name
// !!! Bug?? If the allocated data shifts position, then pointers given to user application will be invalid
namedata = (char *)vp;
n_namedata = namedata_ix+len + 1000;
}
memcpy(&namedata[ix = namedata_ix],name,len);
namedata_ix += len;
return(ix);
} // end of AddNameData
void SetVoiceStack(espeak_VOICE *v, const char *variant_name)
{//==========================================================
SSML_STACK *sp;
sp = &ssml_stack[0];
if(v == NULL)
{
memset(sp,0,sizeof(ssml_stack[0]));
return;
}
if(v->languages != NULL)
strcpy(sp->language,v->languages);
if(v->name != NULL)
strncpy0(sp->voice_name, v->name, sizeof(sp->voice_name));
sp->voice_variant_number = v->variant;
sp->voice_age = v->age;
sp->voice_gender = v->gender;
if(memcmp(variant_name, "!v", 2) == 0)
variant_name += 3;// strip variant directory name, !v plus PATHSEP
strncpy0(base_voice_variant_name, variant_name, sizeof(base_voice_variant_name));
memcpy(&base_voice, ¤t_voice_selected, sizeof(base_voice));
}
static int GetVoiceAttributes(wchar_t *pw, int tag_type)
{//=====================================================
// Determines whether voice attribute are specified in this tag, and if so, whether this means
// a voice change.
// If it's a closing tag, delete the top frame of the stack and determine whether this implies
// a voice change.
// Returns CLAUSE_BIT_VOICE if there is a voice change
wchar_t *lang;
wchar_t *gender;
wchar_t *name;
wchar_t *age;
wchar_t *variant;
int value;
const char *new_voice_id;
SSML_STACK *ssml_sp;
static const MNEM_TAB mnem_gender[] = {
{"male", 1},
{"female", 2},
{"neutral", 3},
{NULL, 0}};
if(tag_type & SSML_CLOSE)
{
// delete a stack frame
if(n_ssml_stack > 1)
{
n_ssml_stack--;
}
}
else
{
// add a stack frame if any voice details are specified
lang = GetSsmlAttribute(pw,"xml:lang");
if(tag_type != SSML_VOICE)
{
// only expect an xml:lang attribute
name = NULL;
variant = NULL;
age = NULL;
gender = NULL;
}
else
{
name = GetSsmlAttribute(pw,"name");
variant = GetSsmlAttribute(pw,"variant");
age = GetSsmlAttribute(pw,"age");
gender = GetSsmlAttribute(pw,"gender");
}
if((tag_type != SSML_VOICE) && (lang==NULL))
return(0); // <s> or <p> without language spec, nothing to do
ssml_sp = &ssml_stack[n_ssml_stack++];
attrcopy_utf8(ssml_sp->language,lang,sizeof(ssml_sp->language));
attrcopy_utf8(ssml_sp->voice_name,name,sizeof(ssml_sp->voice_name));
if((value = attrnumber(variant,1,0)) > 0)
value--; // variant='0' and variant='1' the same
ssml_sp->voice_variant_number = value;
ssml_sp->voice_age = attrnumber(age,0,0);
ssml_sp->voice_gender = attrlookup(gender,mnem_gender);
ssml_sp->tag_type = tag_type;
}
new_voice_id = VoiceFromStack();
if(strcmp(new_voice_id,current_voice_id) != 0)
{
// add an embedded command to change the voice
strcpy(current_voice_id,new_voice_id);
return(CLAUSE_BIT_VOICE); // change of voice
}
return(0);
} // end of GetVoiceAttributes
static void SetProsodyParameter(int param_type, wchar_t *attr1, PARAM_STACK *sp)
{//=============================================================================
int value;
int sign;
static const MNEM_TAB mnem_volume[] = {
{"default",100},
{"silent",0},
{"x-soft",30},
{"soft",65},
{"medium",100},
{"loud",150},
{"x-loud",230},
{NULL, -1}};
static const MNEM_TAB mnem_rate[] = {
{"default",100},
{"x-slow",60},
{"slow",80},
{"medium",100},
{"fast",125},
{"x-fast",160},
{NULL, -1}};
static const MNEM_TAB mnem_pitch[] = {
{"default",100},
{"x-low",70},
{"low",85},
{"medium",100},
{"high",110},
{"x-high",120},
{NULL, -1}};
static const MNEM_TAB mnem_range[] = {
{"default",100},
{"x-low",20},
{"low",50},
{"medium",100},
{"high",140},
{"x-high",180},
{NULL, -1}};
static const MNEM_TAB *mnem_tabs[5] = {
NULL, mnem_rate, mnem_volume, mnem_pitch, mnem_range };
if((value = attrlookup(attr1,mnem_tabs[param_type])) >= 0)
{
// mnemonic specifies a value as a percentage of the base pitch/range/rate/volume
sp->parameter[param_type] = (param_stack[0].parameter[param_type] * value)/100;
}
else
{
sign = attr_prosody_value(param_type,attr1,&value);
if(sign == 0)
sp->parameter[param_type] = value; // absolute value in Hz
else
if(sign == 2)
{
// change specified as percentage or in semitones
sp->parameter[param_type] = (speech_parameters[param_type] * value)/100;
}
else
{
// change specified as plus or minus Hz
sp->parameter[param_type] = speech_parameters[param_type] + (value*sign);
}
}
} // end of SetProsodyParemeter
static int ReplaceKeyName(char *outbuf, int index, int *outix)
{//===========================================================
// Replace some key-names by single characters, so they can be pronounced in different languages
static MNEM_TAB keynames[] = {
{"space ",0xe020},
{"tab ", 0xe009},
{"underscore ", 0xe05f},
{"double-quote ", '"'},
{NULL, 0}};
int ix;
int letter;
char *p;
p = &outbuf[index];
if((letter = LookupMnem(keynames, p)) != 0)
{
ix = utf8_out(letter, p);
*outix = index + ix;
return(letter);
}
return(0);
}
static int ProcessSsmlTag(wchar_t *xml_buf, char *outbuf, int *outix, int n_outbuf, int self_closing)
{//==================================================================================================
// xml_buf is the tag and attributes with a zero terminator in place of the original '>'
// returns a clause terminator value.
unsigned int ix;
int index;
int c;
int tag_type;
int value;
int value2;
int value3;
int voice_change_flag;
wchar_t *px;
wchar_t *attr1;
wchar_t *attr2;
wchar_t *attr3;
int terminator;
char *uri;
int param_type;
char tag_name[40];
char buf[80];
PARAM_STACK *sp;
SSML_STACK *ssml_sp;
static const MNEM_TAB mnem_punct[] = {
{"none", 1},
{"all", 2},
{"some", 3},
{NULL, -1}};
static const MNEM_TAB mnem_capitals[] = {
{"no", 0},
{"spelling", 2},
{"icon", 1},
{"pitch", 20}, // this is the amount by which to raise the pitch
{NULL, -1}};
static const MNEM_TAB mnem_interpret_as[] = {
{"characters",SAYAS_CHARS},
{"tts:char",SAYAS_SINGLE_CHARS},
{"tts:key",SAYAS_KEY},
{"tts:digits",SAYAS_DIGITS},
{"telephone",SAYAS_DIGITS1},
{NULL, -1}};
static const MNEM_TAB mnem_sayas_format[] = {
{"glyphs",1},
{NULL, -1}};
static const MNEM_TAB mnem_break[] = {
{"none",0},
{"x-weak",1},
{"weak",2},
{"medium",3},
{"strong",4},
{"x-strong",5},
{NULL,-1}};
static const MNEM_TAB mnem_emphasis[] = {
{"none",1},
{"reduced",2},
{"moderate",3},
{"strong",4},
{"x-strong",5},
{NULL,-1}};
static const char *prosody_attr[5] = {
NULL, "rate", "volume", "pitch", "range" };
for(ix=0; ix<(sizeof(tag_name)-1); ix++)
{
if(((c = xml_buf[ix]) == 0) || iswspace(c))
break;
tag_name[ix] = tolower((char)c);
}
tag_name[ix] = 0;
px = &xml_buf[ix]; // the tag's attributes
if(tag_name[0] == '/')
{
// closing tag
if((tag_type = LookupMnem(ssmltags,&tag_name[1])) != HTML_NOSPACE)
{
outbuf[(*outix)++] = ' ';
}
tag_type += SSML_CLOSE;
}
else
{
if((tag_type = LookupMnem(ssmltags,tag_name)) != HTML_NOSPACE)
{
// separate SSML tags from the previous word (but not HMTL tags such as <b> <font> which can occur inside a word)
outbuf[(*outix)++] = ' ';
}
if(self_closing && ignore_if_self_closing[tag_type])
return(0);
}
voice_change_flag = 0;
terminator = CLAUSE_NONE;
ssml_sp = &ssml_stack[n_ssml_stack-1];
switch(tag_type)
{
case SSML_STYLE:
sp = PushParamStack(tag_type);
attr1 = GetSsmlAttribute(px,"field");
attr2 = GetSsmlAttribute(px,"mode");
if(attrcmp(attr1,"punctuation")==0)
{
value = attrlookup(attr2,mnem_punct);
sp->parameter[espeakPUNCTUATION] = value;
}
else
if(attrcmp(attr1,"capital_letters")==0)
{
value = attrlookup(attr2,mnem_capitals);
sp->parameter[espeakCAPITALS] = value;
}
ProcessParamStack(outbuf, outix);
break;
case SSML_PROSODY:
sp = PushParamStack(tag_type);
// look for attributes: rate, volume, pitch, range
for(param_type=espeakRATE; param_type <= espeakRANGE; param_type++)
{
if((attr1 = GetSsmlAttribute(px,prosody_attr[param_type])) != NULL)
{
SetProsodyParameter(param_type, attr1, sp);
}
}
ProcessParamStack(outbuf, outix);
break;
case SSML_EMPHASIS:
sp = PushParamStack(tag_type);
value = 3; // default is "moderate"
if((attr1 = GetSsmlAttribute(px,"level")) != NULL)
{
value = attrlookup(attr1,mnem_emphasis);
}
if(translator->langopts.tone_language == 1)
{
static unsigned char emphasis_to_pitch_range[] = {50,50,40,70,90,100};
static unsigned char emphasis_to_volume[] = {100,100,70,110,135,150};
// tone language (eg.Chinese) do emphasis by increasing the pitch range.
sp->parameter[espeakRANGE] = emphasis_to_pitch_range[value];
sp->parameter[espeakVOLUME] = emphasis_to_volume[value];
}
else
{
static unsigned char emphasis_to_volume2[] = {100,100,75,100,120,150};
sp->parameter[espeakVOLUME] = emphasis_to_volume2[value];
sp->parameter[espeakEMPHASIS] = value;
}
ProcessParamStack(outbuf, outix);
break;
case SSML_STYLE + SSML_CLOSE:
case SSML_PROSODY + SSML_CLOSE:
case SSML_EMPHASIS + SSML_CLOSE:
PopParamStack(tag_type, outbuf, outix);
break;
case SSML_SAYAS:
attr1 = GetSsmlAttribute(px,"interpret-as");
attr2 = GetSsmlAttribute(px,"format");
attr3 = GetSsmlAttribute(px,"detail");
value = attrlookup(attr1,mnem_interpret_as);
value2 = attrlookup(attr2,mnem_sayas_format);
if(value2 == 1)
value = SAYAS_GLYPHS;
value3 = attrnumber(attr3,0,0);
if(value == SAYAS_DIGITS)
{
if(value3 <= 1)
value = SAYAS_DIGITS1;
else
value = SAYAS_DIGITS + value3;
}
sprintf(buf,"%c%dY",CTRL_EMBEDDED,value);
strcpy(&outbuf[*outix],buf);
*outix += strlen(buf);
sayas_start = *outix;
sayas_mode = value; // punctuation doesn't end clause during SAY-AS
break;
case SSML_SAYAS + SSML_CLOSE:
if(sayas_mode == SAYAS_KEY)
{
outbuf[*outix] = 0;
ReplaceKeyName(outbuf, sayas_start, outix);
}
outbuf[(*outix)++] = CTRL_EMBEDDED;
outbuf[(*outix)++] = 'Y';
sayas_mode = 0;
break;
case SSML_SUB:
if((attr1 = GetSsmlAttribute(px,"alias")) != NULL)
{
// use the alias rather than the text
ignore_text = 1;
*outix += attrcopy_utf8(&outbuf[*outix],attr1,n_outbuf-*outix);
}
break;
case SSML_IGNORE_TEXT:
ignore_text = 1;
break;
case SSML_SUB + SSML_CLOSE:
case SSML_IGNORE_TEXT + SSML_CLOSE:
ignore_text = 0;
break;
case SSML_MARK:
if((attr1 = GetSsmlAttribute(px,"name")) != NULL)
{
// add name to circular buffer of marker names
attrcopy_utf8(buf,attr1,sizeof(buf));
if(strcmp(skip_marker,buf)==0)
{
// This is the marker we are waiting for before starting to speak
clear_skipping_text = 1;
skip_marker[0] = 0;
return(CLAUSE_NONE);
}
if((index = AddNameData(buf,0)) >= 0)
{
sprintf(buf,"%c%dM",CTRL_EMBEDDED,index);
strcpy(&outbuf[*outix],buf);
*outix += strlen(buf);
}
}
break;
case SSML_AUDIO:
sp = PushParamStack(tag_type);
if((attr1 = GetSsmlAttribute(px,"src")) != NULL)
{
char fname[256];
attrcopy_utf8(buf,attr1,sizeof(buf));
if(uri_callback == NULL)
{
if((xmlbase != NULL) && (buf[0] != '/'))
{
sprintf(fname,"%s/%s",xmlbase,buf);
index = LoadSoundFile2(fname);
}
else
{
index = LoadSoundFile2(buf);
}
if(index >= 0)
{
sprintf(buf,"%c%dI",CTRL_EMBEDDED,index);
strcpy(&outbuf[*outix],buf);
*outix += strlen(buf);
sp->parameter[espeakSILENCE] = 1;
}
}
else
{
if((index = AddNameData(buf,0)) >= 0)
{
uri = &namedata[index];
if(uri_callback(1,uri,xmlbase) == 0)
{
sprintf(buf,"%c%dU",CTRL_EMBEDDED,index);
strcpy(&outbuf[*outix],buf);
*outix += strlen(buf);
sp->parameter[espeakSILENCE] = 1;
}
}
}
}
ProcessParamStack(outbuf, outix);
if(self_closing)
PopParamStack(tag_type, outbuf, outix);
else
audio_text = 1;
return(CLAUSE_NONE);
case SSML_AUDIO + SSML_CLOSE:
PopParamStack(tag_type, outbuf, outix);
audio_text = 0;
return(CLAUSE_NONE);
case SSML_BREAK:
value = 21;
terminator = CLAUSE_NONE;
if((attr1 = GetSsmlAttribute(px,"strength")) != NULL)
{
static int break_value[6] = {0,7,14,21,40,80}; // *10mS
value = attrlookup(attr1,mnem_break);
if(value < 3)
{
// adjust prepause on the following word
sprintf(&outbuf[*outix],"%c%dB",CTRL_EMBEDDED,value);
*outix += 3;
terminator = 0;
}
value = break_value[value];
}
if((attr2 = GetSsmlAttribute(px,"time")) != NULL)
{
value2 = attrnumber(attr2,0,1); // pause in mS
// compensate for speaking speed to keep constant pause length, see function PauseLength()
// 'value' here is x 10mS
value = (value2 * 256) / (speed.clause_pause_factor * 10);
if(value < 200)
value = (value2 * 256) / (speed.pause_factor * 10);
if(terminator == 0)
terminator = CLAUSE_NONE;
}
if(terminator)
{
if(value > 0xfff)
{
// scale down the value and set a scaling indicator bit
value = value / 32;
if(value > 0xfff)
value = 0xfff;
terminator |= CLAUSE_PAUSE_LONG;
}
return(terminator + value);
}
break;
case SSML_SPEAK:
if((attr1 = GetSsmlAttribute(px,"xml:base")) != NULL)
{
attrcopy_utf8(buf,attr1,sizeof(buf));
if((index = AddNameData(buf,0)) >= 0)
{
xmlbase = &namedata[index];
}
}
if(GetVoiceAttributes(px, tag_type) == 0)
return(0); // no voice change
return(CLAUSE_VOICE);
case SSML_VOICE:
if(GetVoiceAttributes(px, tag_type) == 0)
return(0); // no voice change
return(CLAUSE_VOICE);
case SSML_SPEAK + SSML_CLOSE:
// unwind stack until the previous <voice> or <speak> tag
while((n_ssml_stack > 1) && (ssml_stack[n_ssml_stack-1].tag_type != SSML_SPEAK))
{
n_ssml_stack--;
}
return(CLAUSE_PERIOD + GetVoiceAttributes(px, tag_type));
case SSML_VOICE + SSML_CLOSE:
// unwind stack until the previous <voice> or <speak> tag
while((n_ssml_stack > 1) && (ssml_stack[n_ssml_stack-1].tag_type != SSML_VOICE))
{
n_ssml_stack--;
}
terminator=0; // ?? Sentence intonation, but no pause ??
return(terminator + GetVoiceAttributes(px, tag_type));
case HTML_BREAK:
case HTML_BREAK + SSML_CLOSE:
return(CLAUSE_COLON);
case SSML_SENTENCE:
if(ssml_sp->tag_type == SSML_SENTENCE)
{
// new sentence implies end-of-sentence
voice_change_flag = GetVoiceAttributes(px, SSML_SENTENCE+SSML_CLOSE);
}
voice_change_flag |= GetVoiceAttributes(px, tag_type);
return(CLAUSE_PARAGRAPH + voice_change_flag);
case SSML_PARAGRAPH:
if(ssml_sp->tag_type == SSML_SENTENCE)
{
// new paragraph implies end-of-sentence or end-of-paragraph
voice_change_flag = GetVoiceAttributes(px, SSML_SENTENCE+SSML_CLOSE);
}
if(ssml_sp->tag_type == SSML_PARAGRAPH)
{
// new paragraph implies end-of-sentence or end-of-paragraph
voice_change_flag |= GetVoiceAttributes(px, SSML_PARAGRAPH+SSML_CLOSE);
}
voice_change_flag |= GetVoiceAttributes(px, tag_type);
return(CLAUSE_PARAGRAPH + voice_change_flag);
case SSML_SENTENCE + SSML_CLOSE:
if(ssml_sp->tag_type == SSML_SENTENCE)
{
// end of a sentence which specified a language
voice_change_flag = GetVoiceAttributes(px, tag_type);
}
return(CLAUSE_PERIOD + voice_change_flag);
case SSML_PARAGRAPH + SSML_CLOSE:
if((ssml_sp->tag_type == SSML_SENTENCE) || (ssml_sp->tag_type == SSML_PARAGRAPH))
{
// End of a paragraph which specified a language.
// (End-of-paragraph also implies end-of-sentence)
return(GetVoiceAttributes(px, tag_type) + CLAUSE_PARAGRAPH);
}
return(CLAUSE_PARAGRAPH);
}
return(0);
} // end of ProcessSsmlTag
static void RemoveChar(char *p)
{//=======================
// Replace a UTF-8 character by spaces
int c;
memset(p, ' ', utf8_in(&c, p));
} // end of RemoveChar
static MNEM_TAB xml_char_mnemonics[] = {
{"gt",'>'},
{"lt", 0xe000 + '<'}, // private usage area, to avoid confusion with XML tag
{"amp", '&'},
{"quot", '"'},
{"nbsp", ' '},
{"apos", '\''},
{NULL,-1}};
int ReadClause(Translator *tr, FILE *f_in, char *buf, short *charix, int *charix_top, int n_buf, int *tone_type, char *voice_change)
{//=================================================================================================================================
/* Find the end of the current clause.
Write the clause into buf
returns: clause type (bits 0-7: pause x10mS, bits 8-11 intonation type)
Also checks for blank line (paragraph) as end-of-clause indicator.
Does not end clause for:
punctuation immediately followed by alphanumeric eg. 1.23 !Speak :path
repeated punctuation, eg. ... !!!
*/
int c1=' '; // current character
int c2; // next character
int cprev=' '; // previous character
int cprev2=' ';
int c_next;
int parag;
int ix = 0;
int j;
int nl_count;
int linelength = 0;
int phoneme_mode = 0;
int n_xml_buf;
int terminator;
int punct;
int found;
int any_alnum = 0;
int self_closing;
int punct_data = 0;
int is_end_clause;
int announced_punctuation = 0;
int stressed_word = 0;
int end_clause_after_tag = 0;
int end_clause_index = 0;
wchar_t xml_buf[N_XML_BUF+1];
#define N_XML_BUF2 20
char xml_buf2[N_XML_BUF2+2]; // for &<name> and &<number> sequences
static char ungot_string[N_XML_BUF2+4];
static int ungot_string_ix = -1;
if(clear_skipping_text)
{
skipping_text = 0;
clear_skipping_text = 0;
}
tr->phonemes_repeat_count = 0;
tr->clause_upper_count = 0;
tr->clause_lower_count = 0;
end_of_input = 0;
*tone_type = 0;
*voice_change = 0;
f_input = f_in; // for GetC etc
if(ungot_word != NULL)
{
strcpy(buf,ungot_word);
ix += strlen(ungot_word);
ungot_word = NULL;
}
if(ungot_char2 != 0)
{
c2 = ungot_char2;
}
else
{
c2 = GetC();
}
while(!Eof() || (ungot_char != 0) || (ungot_char2 != 0) || (ungot_string_ix >= 0))
{
if(!iswalnum(c1))
{
if((end_character_position > 0) && (count_characters > end_character_position))
{
end_of_input = 1;
return(CLAUSE_EOF);
}
if((skip_characters > 0) && (count_characters >= skip_characters))
{
// reached the specified start position
// don't break a word
clear_skipping_text = 1;
skip_characters = 0;
UngetC(c2);
return(CLAUSE_NONE);
}
}
cprev2 = cprev;
cprev = c1;
c1 = c2;
if(ungot_string_ix >= 0)
{
if(ungot_string[ungot_string_ix] == 0)
ungot_string_ix = -1;
}
if((ungot_string_ix == 0) && (ungot_char2 == 0))
{
c1 = ungot_string[ungot_string_ix++];
}
if(ungot_string_ix >= 0)
{
c2 = ungot_string[ungot_string_ix++];
}
else
{
c2 = GetC();
if(Eof())
{
c2 = ' ';
}
}
ungot_char2 = 0;
if((option_ssml) && (phoneme_mode==0))
{
if((ssml_ignore_l_angle != '&') && (c1 == '&') && ((c2=='#') || ((c2 >= 'a') && (c2 <= 'z'))))
{
n_xml_buf = 0;
c1 = c2;
while(!Eof() && (iswalnum(c1) || (c1=='#')) && (n_xml_buf < N_XML_BUF2))
{
xml_buf2[n_xml_buf++] = c1;
c1 = GetC();
}
xml_buf2[n_xml_buf] = 0;
c2 = GetC();
sprintf(ungot_string,"%s%c%c",&xml_buf2[0],c1,c2);
if(c1 == ';')
{
if(xml_buf2[0] == '#')
{
// character code number
if(xml_buf2[1] == 'x')
found = sscanf(&xml_buf2[2],"%x",(unsigned int *)(&c1));
else
found = sscanf(&xml_buf2[1],"%d",&c1);
}
else
{
if((found = LookupMnem(xml_char_mnemonics,xml_buf2)) != -1)
{
c1 = found;
if(c2 == 0)
c2 = ' ';
}
}
}
else
{
found = -1;
}
if(found <= 0)
{
ungot_string_ix = 0;
c1 = '&';
c2 = ' ';
}
if((c1 <= 0x20) && ((sayas_mode == SAYAS_SINGLE_CHARS) || (sayas_mode == SAYAS_KEY)))
{
c1 += 0xe000; // move into unicode private usage area
}
}
else
if((c1 == '<') && (ssml_ignore_l_angle != '<'))
{
if((c2 == '!') || (c2 == '?'))
{
// a comment, ignore until closing '<' (or <?xml tag )
while(!Eof() && (c1 != '>'))
{
c1 = GetC();
}
c2 = ' ';
}
else
if((c2 == '/') || iswalpha2(c2))
{
// check for space in the output buffer for embedded commands produced by the SSML tag
if(ix > (n_buf - 20))
{
// Perhaps not enough room, end the clause before the SSML tag
UngetC(c2);
ungot_char2 = c1;
buf[ix] = ' ';
buf[ix+1] = 0;
return(CLAUSE_NONE);
}
// SSML Tag
n_xml_buf = 0;
c1 = c2;
while(!Eof() && (c1 != '>') && (n_xml_buf < N_XML_BUF))
{
xml_buf[n_xml_buf++] = c1;
c1 = GetC();
}
xml_buf[n_xml_buf] = 0;
c2 = ' ';
self_closing = 0;
if(xml_buf[n_xml_buf-1] == '/')
{
// a self-closing tag
xml_buf[n_xml_buf-1] = ' ';
self_closing = 1;
}
terminator = ProcessSsmlTag(xml_buf,buf,&ix,n_buf,self_closing);
if(terminator != 0)
{
if(end_clause_after_tag)
ix = end_clause_index;
buf[ix] = ' ';
buf[ix++] = 0;
if(terminator & CLAUSE_BIT_VOICE)
{
strcpy(voice_change, current_voice_id);
}
return(terminator);
}
c1 = ' ';
c2 = GetC();
continue;
}
}
}
ssml_ignore_l_angle=0;
if(ignore_text)
continue;
if((c2=='\n') && (option_linelength == -1))
{
// single-line mode, return immediately on NL
if((punct = lookupwchar(punct_chars,c1)) == 0)
{
charix[ix] = count_characters - clause_start_char;
*charix_top = ix;
ix += utf8_out(c1,&buf[ix]);
terminator = CLAUSE_PERIOD; // line doesn't end in punctuation, assume period
}
else
{
terminator = punct_attributes[punct];
}
buf[ix] = ' ';
buf[ix+1] = 0;
return(terminator);
}
if((c1 == CTRL_EMBEDDED) || (c1 == ctrl_embedded))
{
// an embedded command. If it's a voice change, end the clause
if(c2 == 'V')
{
buf[ix++] = 0; // end the clause at this point
while(!iswspace(c1 = GetC()) && !Eof() && (ix < (n_buf-1)))
buf[ix++] = c1; // add voice name to end of buffer, after the text
buf[ix++] = 0;
return(CLAUSE_VOICE);
}
else
if(c2 == 'B')
{
// set the punctuation option from an embedded command
// B0 B1 B<punct list><space>
strcpy(&buf[ix]," ");
ix += 3;
if((c2 = GetC()) == '0')
option_punctuation = 0;
else
{
option_punctuation = 1;
option_punctlist[0] = 0;
if(c2 != '1')
{
// a list of punctuation characters to be spoken, terminated by space
j = 0;
while(!iswspace(c2) && !Eof())
{
option_punctlist[j++] = c2;
c2 = GetC();
buf[ix++] = ' ';
}
option_punctlist[j] = 0; // terminate punctuation list
option_punctuation = 2;
}
}
c2 = GetC();
continue;
}
}
linelength++;
if((j = lookupwchar2(tr->chars_ignore,c1)) != 0)
{
if(j == 1)
{
// ignore this character (eg. zero-width-non-joiner U+200C)
continue;
}
c1 = j; // replace the character
}
if(iswalnum(c1))
any_alnum = 1;
else
{
if(stressed_word)
{
stressed_word = 0;
c1 = CHAR_EMPHASIS; // indicate this word is stressed
UngetC(c2);
c2 = ' ';
}
if(c1 == 0xf0b)
c1 = ' '; // Tibet inter-syllabic mark, ?? replace by space ??
if(iswspace(c1))
{
char *p_word;
if(tr->translator_name == 0x6a626f)
{
// language jbo : lojban
// treat "i" or ".i" as end-of-sentence
p_word = &buf[ix-1];
if(p_word[0] == 'i')
{
if(p_word[-1] == '.')
p_word--;
if(p_word[-1] == ' ')
{
ungot_word = "i ";
UngetC(c2);
p_word[0] = 0;
return(CLAUSE_PERIOD);
}
}
}
}
if(c1 == 0xd4d)
{
// Malayalam virama, check if next character is Zero-width-joiner
if(c2 == 0x200d)
{
c1 = 0xd4e; // use this unofficial code for chillu-virama
}
}
}
if(iswupper2(c1))
{
tr->clause_upper_count++;
if((option_capitals == 2) && (sayas_mode == 0) && !iswupper2(cprev))
{
char text_buf[40];
char text_buf2[30];
if(LookupSpecial(tr, "_cap", text_buf2) != NULL)
{
sprintf(text_buf,"%s",text_buf2);
j = strlen(text_buf);
if((ix + j) < n_buf)
{
strcpy(&buf[ix],text_buf);
ix += j;
}
}
}
}
else
if(iswalpha2(c1))
tr->clause_lower_count++;
if(option_phoneme_input)
{
if(phoneme_mode > 0)
phoneme_mode--;
else
if((c1 == '[') && (c2 == '['))
phoneme_mode = -1; // input is phoneme mnemonics, so don't look for punctuation
else
if((c1 == ']') && (c2 == ']'))
phoneme_mode = 2; // set phoneme_mode to zero after the next two characters
}
if(c1 == '\n')
{
parag = 0;
// count consecutive newlines, ignoring other spaces
while(!Eof() && iswspace(c2))
{
if(c2 == '\n')
parag++;
c2 = GetC();
}
if(parag > 0)
{
// 2nd newline, assume paragraph
UngetC(c2);
if(end_clause_after_tag)
{
RemoveChar(&buf[end_clause_index]); // delete clause-end punctiation
}
buf[ix] = ' ';
buf[ix+1] = 0;
if(parag > 3)
parag = 3;
if(option_ssml) parag=1;
return((CLAUSE_PARAGRAPH-30) + 30*parag); // several blank lines, longer pause
}
if(linelength <= option_linelength)
{
// treat lines shorter than a specified length as end-of-clause
UngetC(c2);
buf[ix] = ' ';
buf[ix+1] = 0;
return(CLAUSE_COLON);
}
linelength = 0;
}
announced_punctuation = 0;
if((phoneme_mode==0) && (sayas_mode==0))
{
is_end_clause = 0;
if(end_clause_after_tag)
{
// Because of an xml tag, we are waiting for the
// next non-blank character to decide whether to end the clause
// i.e. is dot followed by an upper-case letter?
if(!iswspace(c1))
{
if(!IsAlpha(c1) || !iswlower2(c1))
// if(iswdigit(c1) || (IsAlpha(c1) && !iswlower2(c1)))
{
UngetC(c2);
ungot_char2 = c1;
buf[end_clause_index] = ' '; // delete the end-clause punctuation
buf[end_clause_index+1] = 0;
return(end_clause_after_tag);
}
end_clause_after_tag = 0;
}
}
if((c1 == '.') && (c2 == '.'))
{
while((c_next = GetC()) == '.')
{
// 3 or more dots, replace by elipsis
c1 = 0x2026;
c2 = ' ';
}
if(c1 == 0x2026)
c2 = c_next;
else
UngetC(c_next);
}
punct_data = 0;
if((punct = lookupwchar(punct_chars,c1)) != 0)
{
punct_data = punct_attributes[punct];
if(punct_data & PUNCT_IN_WORD)
{
// Armenian punctuation inside a word
stressed_word = 1;
*tone_type = punct_data >> 12 & 0xf; // override the end-of-sentence type
continue;
}
if((iswspace(c2) || (punct_data & 0x8000) || IsBracket(c2) || (c2=='?') || Eof() || (c2 == ctrl_embedded))) // don't check for '-' because it prevents recognizing ':-)'
// if((iswspace(c2) || (punct_data & 0x8000) || IsBracket(c2) || (c2=='?') || (c2=='-') || Eof()))
{
// note: (c2='?') is for when a smart-quote has been replaced by '?'
is_end_clause = 1;
}
}
// don't announce punctuation for the alternative text inside inside <audio> ... </audio>
if(c1 == 0xe000+'<') c1 = '<';
if(option_punctuation && iswpunct(c1) && (audio_text == 0))
{
// option is set to explicitly speak punctuation characters
// if a list of allowed punctuation has been set up, check whether the character is in it
if((option_punctuation == 1) || (wcschr(option_punctlist,c1) != NULL))
{
tr->phonemes_repeat_count = 0;
if((terminator = AnnouncePunctuation(tr, c1, &c2, buf, &ix, is_end_clause)) >= 0)
return(terminator);
announced_punctuation = c1;
}
}
if((punct_data & PUNCT_SAY_NAME) && (announced_punctuation == 0))
{
// used for elipsis (and 3 dots) if a pronunciation for elipsis is given in *_list
char *p2;
p2 = &buf[ix];
sprintf(p2,"%s",LookupCharName(tr, c1, 1));
if(p2[0] != 0)
{
ix += strlen(p2);
announced_punctuation = c1;
punct_data = punct_data & ~CLAUSE_BITS_INTONATION; // change intonation type to 0 (full-stop)
}
}
if(is_end_clause)
{
nl_count = 0;
c_next = c2;
if(iswspace(c_next))
{
while(!Eof() && iswspace(c_next))
{
if(c_next == '\n')
nl_count++;
c_next = GetC(); // skip past space(s)
}
}
if((c1 == '.') && (nl_count < 2))
{
punct_data |= CLAUSE_DOT;
}
if(nl_count==0)
{
if((c1 == ',') && (cprev == '.') && (tr->translator_name == L('h','u')) && iswdigit(cprev2) && (iswdigit(c_next) || (iswlower2(c_next))))
{
// lang=hu, fix for ordinal numbers, eg: "december 2., szerda", ignore ',' after ordinal number
c1 = CHAR_COMMA_BREAK;
is_end_clause = 0;
}
if(c1 == '.')
{
if((tr->langopts.numbers & NUM_ORDINAL_DOT) &&
(iswdigit(cprev) || (IsRomanU(cprev) && (IsRomanU(cprev2) || iswspace(cprev2))))) // lang=hu
{
// dot after a number indicates an ordinal number
if(!iswdigit(cprev))
{
is_end_clause = 0; // Roman number followed by dot
}
else
{
if (iswlower2(c_next) || (c_next=='-')) // hyphen is needed for lang-hu (eg. 2.-kal)
is_end_clause = 0; // only if followed by lower-case, (or if there is a XML tag)
}
}
else
if(c_next == '\'')
{
is_end_clause = 0; // eg. u.s.a.'s
}
if(iswlower2(c_next))
{
// next word has no capital letter, this dot is probably from an abbreviation
// c1 = ' ';
is_end_clause = 0;
}
if(any_alnum==0)
{
// no letters or digits yet, so probably not a sentence terminator
// Here, dot is followed by space or bracket
c1 = ' ';
is_end_clause = 0;
}
}
else
{
if(any_alnum==0)
{
// no letters or digits yet, so probably not a sentence terminator
is_end_clause = 0;
}
}
if(is_end_clause && (c1 == '.') && (c_next == '<') && option_ssml)
{
// wait until after the end of the xml tag, then look for upper-case letter
is_end_clause = 0;
end_clause_index = ix;
end_clause_after_tag = punct_data;
}
}
if(is_end_clause)
{
UngetC(c_next);
buf[ix] = ' ';
buf[ix+1] = 0;
if(iswdigit(cprev) && !IsAlpha(c_next)) // ????
{
punct_data &= ~CLAUSE_DOT;
}
if(nl_count > 1)
{
if((punct_data == CLAUSE_QUESTION) || (punct_data == CLAUSE_EXCLAMATION))
return(punct_data + 35); // with a longer pause
return(CLAUSE_PARAGRAPH);
}
return(punct_data); // only recognise punctuation if followed by a blank or bracket/quote
}
else
{
if(!Eof())
{
if(iswspace(c2))
UngetC(c_next);
}
}
}
}
if(speech_parameters[espeakSILENCE]==1)
continue;
if(c1 == announced_punctuation)
{
// This character has already been announced, so delete it so that it isn't spoken a second time.
// Unless it's a hyphen or apostrophe (which is used by TranslateClause() )
if(IsBracket(c1))
{
c1 = 0xe000 + '('; // Unicode private useage area. So TranslateRules() knows the bracket name has been spoken
}
else
if(c1 != '-')
{
c1 = ' ';
}
}
j = ix+1;
if(c1 == 0xe000 + '<') c1 = '<';
ix += utf8_out(c1,&buf[ix]); // buf[ix++] = c1;
if(!iswspace(c1) && !IsBracket(c1))
{
charix[ix] = count_characters - clause_start_char;
while(j < ix)
charix[j++] = -1; // subsequent bytes of a multibyte character
}
*charix_top = ix;
if(((ix > (n_buf-75)) && !IsAlpha(c1) && !iswdigit(c1)) || (ix >= (n_buf-4)))
{
// clause too long, getting near end of buffer, so break here
// try to break at a word boundary (unless we actually reach the end of buffer).
// (n_buf-4) is to allow for 3 bytes of multibyte character plus terminator.
buf[ix] = ' ';
buf[ix+1] = 0;
UngetC(c2);
return(CLAUSE_NONE);
}
}
if(stressed_word)
{
ix += utf8_out(CHAR_EMPHASIS, &buf[ix]);
}
if(end_clause_after_tag)
{
RemoveChar(&buf[end_clause_index]); // delete clause-end punctiation
}
buf[ix] = ' ';
buf[ix+1] = 0;
return(CLAUSE_EOF); // end of file
} // end of ReadClause
void InitNamedata(void)
{//====================
namedata_ix = 0;
if(namedata != NULL)
{
free(namedata);
namedata = NULL;
n_namedata = 0;
}
}
void InitText2(void)
{//=================
int param;
ungot_char = 0;
ungot_char2 = 0;
n_ssml_stack =1;
n_param_stack = 1;
ssml_stack[0].tag_type = 0;
for(param=0; param<N_SPEECH_PARAM; param++)
speech_parameters[param] = param_stack[0].parameter[param]; // set all speech parameters to defaults
option_punctuation = speech_parameters[espeakPUNCTUATION];
option_capitals = speech_parameters[espeakCAPITALS];
current_voice_id[0] = 0;
ignore_text = 0;
audio_text = 0;
clear_skipping_text = 0;
count_characters = -1;
sayas_mode = 0;
xmlbase = NULL;
}
