/*************************************************************************** * 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: * * . * ***************************************************************************/ #define N_PHONEME_LIST 1000 // enough for source[N_TR_SOURCE] full of text, else it will truncate #define MAX_HARMONIC 400 // 400 * 50Hz = 20 kHz, more than enough #define N_SEQ_FRAMES 25 // max frames in a spectrum sequence (real max is ablut 8) #define STEPSIZE 64 // 2.9mS at 22 kHz sample rate #define PITCHfall 0 #define PITCHrise 1 // flags set for frames within a spectrum sequence #define FRFLAG_KLATT 0x01 // this frame includes extra data for Klatt synthesizer #define FRFLAG_VOWEL_CENTRE 0x02 // centre point of vowel #define FRFLAG_LEN_MOD 0x04 // reduce effect of length adjustment #define FRFLAG_BREAK_LF 0x08 // but keep f3 upwards #define FRFLAG_BREAK 0x10 // don't merge with next frame #define FRFLAG_BREAK_2 0x18 // FRFLAG_BREAK_LF or FRFLAG_BREAK #define FRFLAG_FORMANT_RATE 0x20 // Flag5 allow increased rate of change of formant freq #define FRFLAG_MODULATE 0x40 // Flag6 modulate amplitude of some cycles to give trill #define FRFLAG_DEFER_WAV 0x80 // Flag7 defer mixing WAV until the next frame #define FRFLAG_COPIED 0x8000 // This frame has been copied into temporary rw memory #define SFLAG_SEQCONTINUE 0x01 // a liquid or nasal after a vowel, but not followed by a vowel #define SFLAG_EMBEDDED 0x02 // there are embedded commands before this phoneme #define SFLAG_SYLLABLE 0x04 // vowel or syllabic consonant #define SFLAG_LENGTHEN 0x08 // lengthen symbol : included after this phoneme #define SFLAG_DICTIONARY 0x10 // the pronunciation of this word was listed in the xx_list dictionary #define SFLAG_SWITCHED_LANG 0x20 // this word uses phonemes from a different language #define SFLAG_PROMOTE_STRESS 0x40 // this unstressed word can be promoted to stressed // embedded command numbers #define EMBED_P 1 // pitch #define EMBED_S 2 // speed (used in setlengths) #define EMBED_A 3 // amplitude/volume #define EMBED_R 4 // pitch range/expression #define EMBED_H 5 // echo/reverberation #define EMBED_T 6 // different tone for announcing punctuation #define EMBED_I 7 // sound icon #define EMBED_S2 8 // speed (used in synthesize) #define EMBED_Y 9 // say-as commands #define EMBED_M 10 // mark name #define EMBED_U 11 // audio uri #define EMBED_B 12 // break #define EMBED_F 13 // emphasis #define N_EMBEDDED_VALUES 14 extern int embedded_value[N_EMBEDDED_VALUES]; extern int embedded_default[N_EMBEDDED_VALUES]; #define N_PEAKS 9 #define N_MARKERS 8 #define N_KLATTP 10 // this affects the phoneme data file format #define N_KLATTP2 14 // used in vowel files, with extra parameters for future extensions #define KLATT_AV 0 #define KLATT_FNZ 1 // nasal zero freq #define KLATT_Tilt 2 #define KLATT_Aspr 3 #define KLATT_Skew 4 #define KLATT_Kopen 5 #define KLATT_AVp 6 #define KLATT_Fric 7 #define KLATT_FricBP 8 #define KLATT_Turb 9 typedef struct { // 44 bytes short frflags; short ffreq[7]; unsigned char length; unsigned char rms; unsigned char fheight[8]; unsigned char fwidth[6]; // width/4 f0-5 unsigned char fright[3]; // width/4 f0-2 unsigned char bw[4]; // Klatt bandwidth BNZ /2, f1,f2,f3 unsigned char klattp[5]; // AV, FNZ, Tilt, Aspr, Skew unsigned char klattp2[5]; // continuation of klattp[], Avp, Fric, FricBP, Turb unsigned char klatt_ap[7]; // Klatt parallel amplitude unsigned char klatt_bp[7]; // Klatt parallel bandwidth /2 } frame_t; // with extra Klatt parameters for parallel resonators typedef struct { // 44 bytes short frflags; short ffreq[7]; unsigned char length; unsigned char rms; unsigned char fheight[8]; unsigned char fwidth[6]; // width/4 f0-5 unsigned char fright[3]; // width/4 f0-2 unsigned char bw[4]; // Klatt bandwidth BNZ /2, f1,f2,f3 unsigned char klattp[5]; // AV, FNZ, Tilt, Aspr, Skew } frame_t2; // TESTING #ifdef deleted typedef struct { short frflags; unsigned char length; unsigned char rms; short ffreq[9]; unsigned char fheight[9]; unsigned char fwidth[6]; // width/4 unsigned char fright[6]; // width/4 unsigned char fwidth6, fright6; unsigned char klattp[N_KLATTP]; } frame_t; typedef struct { // 43 bytes short frflags; unsigned char length; unsigned char rms; short ffreq[9]; unsigned char fheight[9]; unsigned char fwidth[6]; // width/4 unsigned char fright[6]; // width/4 } frame_t2; // the original, without Klatt additions, used for file "phondata" #endif // formant data used by wavegen typedef struct { int freq; // Hz<<16 int height; // height<<15 int left; // Hz<<16 int right; // Hz<<16 DOUBLEX freq1; // floating point versions of the above DOUBLEX height1; DOUBLEX left1; DOUBLEX right1; DOUBLEX freq_inc; // increment by this every 64 samples DOUBLEX height_inc; DOUBLEX left_inc; DOUBLEX right_inc; } wavegen_peaks_t; typedef struct { unsigned char *pitch_env; int pitch; // pitch Hz*256 int pitch_ix; // index into pitch envelope (*256) int pitch_inc; // increment to pitch_ix int pitch_base; // Hz*256 low, before modified by envelope int pitch_range; // Hz*256 range of envelope unsigned char *mix_wavefile; // wave file to be added to synthesis int n_mix_wavefile; // length in bytes int mix_wave_scale; // 0=2 byte samples int mix_wave_amp; int mix_wavefile_ix; int amplitude; int amplitude_v; int prev_was_synth; // previous sound was synthesized (not a played wave or pause) } WGEN_DATA; typedef struct { double a; double b; double c; double x1; double x2; } RESONATOR; typedef struct { short length_total; // not used unsigned char n_frames; unsigned char flags; frame_t2 frame[N_SEQ_FRAMES]; // max. frames in a spectrum sequence } SPECT_SEQ; // sequence of espeak formant frames typedef struct { short length_total; // not used unsigned char n_frames; unsigned char flags; frame_t frame[N_SEQ_FRAMES]; // max. frames in a spectrum sequence } SPECT_SEQK; // sequence of klatt formants frames typedef struct { short length; short frflags; frame_t *frame; } frameref_t; typedef struct { PHONEME_TAB *ph; unsigned char env; // pitch envelope number unsigned char stresslevel; unsigned char type; unsigned char prepause; unsigned char amp; unsigned char tone_ph; // tone phoneme to use with this vowel unsigned char newword; // bit 0=start of word, bit 1=end of clause, bit 2=start of sentence unsigned char synthflags; short length; // length_mod short pitch1; // pitch, 0-4095 within the Voice's pitch range short pitch2; unsigned short sourceix; // ix into the original source text string, only set at the start of a word } PHONEME_LIST; typedef struct { int name; int length; char *data; char *filename; } SOUND_ICON; typedef struct { int name; unsigned int next_phoneme; int mbr_name; int mbr_name2; int percent; // percentage length of first component int control; } MBROLA_TAB; typedef struct { int speed_factor1; int speed_factor2; int speed_factor3; int min_sample_len; int fast_settings[8]; } SPEED_FACTORS; // phoneme table extern PHONEME_TAB *phoneme_tab[N_PHONEME_TAB]; // list of phonemes in a clause extern int n_phoneme_list; extern PHONEME_LIST phoneme_list[N_PHONEME_LIST]; extern unsigned int embedded_list[]; extern unsigned char env_fall[128]; extern unsigned char env_rise[128]; extern unsigned char env_frise[128]; #define MAX_PITCH_VALUE 101 extern unsigned char pitch_adjust_tab[MAX_PITCH_VALUE+1]; // queue of commands for wavegen #define WCMD_KLATT 1 #define WCMD_KLATT2 2 #define WCMD_SPECT 3 #define WCMD_SPECT2 4 #define WCMD_PAUSE 5 #define WCMD_WAVE 6 #define WCMD_WAVE2 7 #define WCMD_AMPLITUDE 8 #define WCMD_PITCH 9 #define WCMD_MARKER 10 #define WCMD_VOICE 11 #define WCMD_EMBEDDED 12 #define N_WCMDQ 160 #define MIN_WCMDQ 22 // need this many free entries before adding new phoneme extern long wcmdq[N_WCMDQ][4]; extern int wcmdq_head; extern int wcmdq_tail; // from Wavegen file int WcmdqFree(); void WcmdqStop(); int WcmdqUsed(); void WcmdqInc(); int WavegenOpenSound(); int WavegenCloseSound(); int WavegenInitSound(); void WavegenInit(int rate, int wavemult_fact); float polint(float xa[],float ya[],int n,float x); int WavegenFill(int fill_zeros); void MarkerEvent(int type, unsigned int char_position, int value, unsigned char *out_ptr); extern unsigned char *wavefile_data; extern int samplerate; extern int samplerate_native; extern int wavefile_ix; extern int wavefile_amp; extern int wavefile_ix2; extern int wavefile_amp2; extern int vowel_transition[4]; extern int vowel_transition0, vowel_transition1; extern int mbrola_delay; extern char mbrola_name[20]; // from synthdata file unsigned int LookupSound(PHONEME_TAB *ph1, PHONEME_TAB *ph2, int which, int *match_level, int control); frameref_t *LookupSpect(PHONEME_TAB *ph1, PHONEME_TAB *prev_ph, PHONEME_TAB *next_ph, int which, int *match_level, int *n_frames, PHONEME_LIST *plist); unsigned char *LookupEnvelope(int ix); int LoadPhData(); void SynthesizeInit(void); int Generate(PHONEME_LIST *phoneme_list, int *n_ph, int resume); void MakeWave2(PHONEME_LIST *p, int n_ph); int SynthOnTimer(void); int SpeakNextClause(FILE *f_text, const void *text_in, int control); int SynthStatus(void); void SetSpeed(int control); void SetEmbedded(int control, int value); void SelectPhonemeTable(int number); int SelectPhonemeTableName(const char *name); void Write4Bytes(FILE *f, int value); int Read4Bytes(FILE *f); int CompileDictionary(const char *dsource, const char *dict_name, FILE *log, char *err_name,int flags); extern unsigned char *envelope_data[18]; extern int formant_rate[]; // max rate of change of each formant extern SPEED_FACTORS speed; extern long count_samples; extern int outbuf_size; extern unsigned char *out_ptr; extern unsigned char *out_start; extern unsigned char *out_end; extern int event_list_ix; extern espeak_EVENT *event_list; extern t_espeak_callback* synth_callback; extern int option_log_frames; extern const char *version_string; extern const int version_phdata; #define N_SOUNDICON_TAB 80 // total entries in soundicon_tab #define N_SOUNDICON_SLOTS 4 // number of slots reserved for dynamic loading of audio files extern int n_soundicon_tab; extern SOUND_ICON soundicon_tab[N_SOUNDICON_TAB]; espeak_ERROR SetVoiceByName(const char *name); espeak_ERROR SetVoiceByProperties(espeak_VOICE *voice_selector); espeak_ERROR LoadMbrolaTable(const char *mbrola_voice, const char *phtrans, int srate); void SetParameter(int parameter, int value, int relative); void MbrolaTranslate(PHONEME_LIST *plist, int n_phonemes, FILE *f_mbrola); //int MbrolaSynth(char *p_mbrola); int DoSample(PHONEME_TAB *ph1, PHONEME_TAB *ph2, int which, int length_mod, int amp); int DoSpect(PHONEME_TAB *this_ph, PHONEME_TAB *prev_ph, PHONEME_TAB *next_ph, int which, PHONEME_LIST *plist, int modulation); int PauseLength(int pause, int control); int LookupPhonemeTable(const char *name); void InitBreath(void); void KlattInit(); int Wavegen_Klatt2(int length, int modulation, int resume, frame_t *fr1, frame_t *fr2);