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-rw-r--r--gammu/emb/common/common.pro1
-rw-r--r--gammu/emb/common/service/gsmring.c6
2 files changed, 6 insertions, 1 deletions
diff --git a/gammu/emb/common/common.pro b/gammu/emb/common/common.pro
index 9342cb7..0e719ee 100644
--- a/gammu/emb/common/common.pro
+++ b/gammu/emb/common/common.pro
@@ -1,186 +1,187 @@
######################################################################
# Automatically generated by qmake (1.07a) Fri Jul 30 22:13:34 2004
######################################################################
TEMPLATE = lib
DEPENDPATH += device \
misc \
phone \
protocol \
service \
device/bluetoth \
device/irda \
device/serial \
misc/coding \
phone/alcatel \
phone/at \
phone/nokia \
phone/obex \
phone/symbian \
protocol/alcatel \
protocol/at \
protocol/nokia \
protocol/obex \
protocol/symbian \
service/backup \
service/sms \
phone/nokia/dct3 \
phone/nokia/dct4
INCLUDEPATH += . \
misc/coding \
misc \
device \
phone/nokia/dct4 \
phone/nokia/dct3 \
phone/at \
phone/alcatel \
phone/obex \
phone/symbian \
protocol \
protocol/nokia \
protocol/at \
protocol/alcatel \
protocol/obex \
protocol/symbian \
device/serial \
device/irda \
device/bluetoth \
service \
service/sms \
service/backup \
phone/nokia \
phone
# Input
HEADERS += config.h \
gammu.h \
gsmcomon.h \
gsmstate.h \
device/devfunc.h \
misc/cfg.h \
misc/misc.h \
phone/pfunc.h \
protocol/protocol.h \
service/gsmcal.h \
service/gsmcall.h \
service/gsmdata.h \
service/gsmlogo.h \
service/gsmmisc.h \
service/gsmnet.h \
service/gsmpbk.h \
service/gsmprof.h \
service/gsmring.h \
device/bluetoth/affix.h \
device/bluetoth/blue_w32.h \
device/bluetoth/bluetoth.h \
device/bluetoth/bluez.h \
device/irda/irda.h \
device/irda/irda_unx.h \
device/irda/irda_w32.h \
device/serial/ser_djg.h \
device/serial/ser_unx.h \
device/serial/ser_w32.h \
misc/coding/coding.h \
misc/coding/md5.h \
phone/alcatel/alcatel.h \
phone/at/atgen.h \
phone/nokia/ncommon.h \
phone/nokia/nfunc.h \
phone/nokia/nfuncold.h \
phone/obex/obexgen.h \
phone/symbian/mroutgen.h \
protocol/alcatel/alcabus.h \
protocol/at/at.h \
protocol/nokia/fbus2.h \
protocol/nokia/mbus2.h \
protocol/nokia/phonet.h \
protocol/obex/obex.h \
protocol/symbian/mrouter.h \
service/backup/backgen.h \
service/backup/backics.h \
service/backup/backldif.h \
service/backup/backlmb.h \
service/backup/backtext.h \
service/backup/backvcf.h \
service/backup/backvcs.h \
service/backup/gsmback.h \
service/sms/gsmems.h \
service/sms/gsmmulti.h \
service/sms/gsmsms.h \
phone/nokia/dct3/dct3comm.h \
phone/nokia/dct3/dct3func.h \
phone/nokia/dct3/n6110.h \
phone/nokia/dct3/n7110.h \
phone/nokia/dct3/n9210.h \
phone/nokia/dct4/dct4func.h \
phone/nokia/dct4/n3320.h \
phone/nokia/dct4/n3650.h \
phone/nokia/dct4/n6510.h
SOURCES +=gsmcomon.c \
gsmstate.c \
misc/misc.c \
misc/cfg.c \
misc/coding/coding.c \
misc/coding/md5.c \
service/sms/gsmsms.c \
service/sms/gsmems.c \
service/sms/gsmmulti.c \
service/gsmcal.c \
service/gsmdata.c \
service/gsmpbk.c \
service/gsmring.c \
service/gsmlogo.c \
service/gsmmisc.c \
service/gsmnet.c \
service/backup/gsmback.c \
service/backup/backldif.c \
service/backup/backlmb.c \
service/backup/backtext.c \
service/backup/backvcs.c \
service/backup/backvcf.c \
service/backup/backics.c \
device/bluetoth/affix.c \
device/bluetoth/bluez.c \
device/bluetoth/blue_w32.c \
device/bluetoth/bluetoth.c \
device/serial/ser_djg.c \
device/irda/irda.c \
device/devfunc.c \
protocol/at/at.c \
protocol/alcatel/alcabus.c \
protocol/nokia/mbus2.c \
protocol/nokia/fbus2.c \
protocol/nokia/phonet.c \
protocol/obex/obex.c \
protocol/symbian/mrouter.c \
phone/pfunc.c \
phone/at/atgen.c \
phone/at/siemens.c \
phone/at/sonyeric.c \
phone/alcatel/alcatel.c \
phone/nokia/dct3/n6110.c \
phone/nokia/dct3/n7110.c \
phone/nokia/dct3/n9210.c \
phone/nokia/dct3/dct3func.c \
phone/nokia/dct4/n3320.c \
phone/nokia/dct4/n3650.c \
phone/nokia/dct4/n6510.c \
phone/nokia/dct4/dct4func.c \
phone/nokia/nauto.c \
phone/nokia/nfunc.c \
phone/nokia/nfuncold.c \
phone/obex/obexgen.c \
phone/symbian/mroutgen.c
+DEFINES += DESKTOP_VERSION
TARGET = microgammu
CONFIG = warn_off release console
DESTDIR = ../../../bin
OBJECTS_DIR = obj/unix
MOC_DIR = moc/unix
unix: {
SOURCES += device/serial/ser_unx.c
}
win32:{
SOURCES += device/serial/ser_w32.c
}
diff --git a/gammu/emb/common/service/gsmring.c b/gammu/emb/common/service/gsmring.c
index f7f7082..7df46f1 100644
--- a/gammu/emb/common/service/gsmring.c
+++ b/gammu/emb/common/service/gsmring.c
@@ -1,1601 +1,1605 @@
/* (c) 2001-2004 by Marcin Wiacek */
/* Based on some work from Ralf Thelen (7110 ringtones),
* Gnokii (RTTL and SM) and others
*/
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <math.h>
#ifdef WIN32
# include <windows.h>
#endif
#include "../gsmcomon.h"
#include "../misc/coding/coding.h"
#include "../gsmstate.h"
#include "gsmring.h"
#include "sms/gsmsms.h"
int GSM_RingNoteGetFrequency(GSM_RingNote Note)
{
double freq=0;
/* Values according to the software from http://iki.fi/too/sw/xring/
* generated with:
* perl -e 'print int(4400 * (2 **($_/12)) + .5)/10, "\n" for(3..14)'
*/
switch (Note.Note) {
case Note_C : freq = 523.3; break;
case Note_Cis: freq = 554.4; break;
case Note_D : freq = 587.3; break;
case Note_Dis: freq = 622.3; break;
case Note_E : freq = 659.3; break;
case Note_F : freq = 698.5; break;
case Note_Fis: freq = 740; break;
case Note_G : freq = 784; break;
case Note_Gis: freq = 830.6; break;
case Note_A : freq = 880; break;
case Note_Ais: freq = 932.3; break;
case Note_H : freq = 987.8; break;
case Note_Pause: break;
}
switch (Note.Scale) {
case Scale_440 : freq = freq / 2; break;
case Scale_880 : break;
case Scale_1760: freq = freq * 2; break;
case Scale_3520: freq = freq * 4; break;
default : break;
}
return (int)freq;
}
int GSM_RingNoteGetFullDuration(GSM_RingNote Note)
{
int duration = 1;
switch (Note.Duration) {
case Duration_Full : duration = 128; break;
case Duration_1_2 : duration = 64; break;
case Duration_1_4 : duration = 32; break;
case Duration_1_8 : duration = 16; break;
case Duration_1_16 : duration = 8; break;
case Duration_1_32 : duration = 4; break;
}
switch (Note.DurationSpec) {
case NoSpecialDuration : break;
case DottedNote : duration = duration * 3/2; break;
case DoubleDottedNote : duration = duration * 9/4; break;
case Length_2_3 : duration = duration * 2/3; break;
}
return duration;
}
#ifndef PI
# define PI 3.141592654
#endif
#define WAV_SAMPLE_RATE 44100
GSM_Error savewav(FILE *file, GSM_Ringtone *ringtone)
{
unsigned char WAV_Header[] = {
'R','I','F','F',
0x00,0x00,0x00,0x00, /* Length */
'W','A','V','E'};
unsigned char FMT_Header[] = {'f','m','t',' ',
0x10,0x00,0x00,0x00,0x01,0x00,0x01,0x00,0x44,0xac,
0x00,0x00,0x88,0x58,0x01,0x00,0x02,0x00,0x10,0x00};
unsigned char DATA_Header[] = {
'd','a','t','a',
0x00,0x00,0x00,0x00}; /* Length */
short DATA_Buffer[60000];
long wavfilesize;
GSM_RingNote *Note;
long i,j,length=0;
double phase=0,phase_step;
fwrite(&WAV_Header, 1, sizeof(WAV_Header), file);
fwrite(&FMT_Header, 1, sizeof(FMT_Header), file);
fwrite(&DATA_Header, 1, sizeof(DATA_Header), file);
for (i=0;i<ringtone->NoteTone.NrCommands;i++) {
if (ringtone->NoteTone.Commands[i].Type == RING_Note) {
Note = &ringtone->NoteTone.Commands[i].Note;
phase_step = GSM_RingNoteGetFrequency(*Note)*WAV_SAMPLE_RATE*1.5;
for (j=0;j<((long)(GSM_RingNoteGetFullDuration(*Note)*WAV_SAMPLE_RATE/70));j++) {
- /*DATA_Buffer[j] = ((int)(sin(phase*PI)*50000));*/
+#ifdef DESKTOP_VERSION
+ DATA_Buffer[j] = ((int)(sin(phase*PI)*50000));
+#else
+ // we have no sin on Zaurus
DATA_Buffer[j] = ((int)(0.5*50000));
+#endif
phase = phase + phase_step;
length++;
}
fwrite(&DATA_Buffer,sizeof(short),j,file);
}
}
wavfilesize = sizeof(WAV_Header) + sizeof(FMT_Header) + sizeof(DATA_Header) + length*2;
WAV_Header[4] = ((unsigned char)wavfilesize % 256);
WAV_Header[5] = ((unsigned char)wavfilesize / 256);
WAV_Header[6] = ((unsigned char)wavfilesize / (256*256));
WAV_Header[7] = ((unsigned char)wavfilesize / (256*256*256));
wavfilesize = wavfilesize - 54;
DATA_Header[4] = ((unsigned char)wavfilesize % 256);
DATA_Header[5] = ((unsigned char)wavfilesize / 256);
DATA_Header[6] = ((unsigned char)wavfilesize / (256*256));
DATA_Header[7] = ((unsigned char)wavfilesize / (256*256*256));
fseek( file, 0, SEEK_SET);
fwrite(&WAV_Header, 1, sizeof(WAV_Header), file);
fwrite(&FMT_Header, 1, sizeof(FMT_Header), file);
fwrite(&DATA_Header, 1, sizeof(DATA_Header), file);
return ERR_NONE;
}
static GSM_Error savebin(FILE *file, GSM_Ringtone *ringtone)
{
char nullchar=0x00;
fwrite(&nullchar,1,1,file);
fwrite(&nullchar,1,1,file);
fprintf(file,"\x0C\x01\x2C");
fprintf(file,"%s",DecodeUnicodeString(ringtone->Name));
fwrite(&nullchar,1,1,file);
fwrite(&nullchar,1,1,file);
fwrite(ringtone->NokiaBinary.Frame,1,ringtone->NokiaBinary.Length,file);
return ERR_NONE;
}
static GSM_Error savepuremidi(FILE *file, GSM_Ringtone *ringtone)
{
fwrite(ringtone->NokiaBinary.Frame,1,ringtone->NokiaBinary.Length,file);
return ERR_NONE;
}
GSM_Error saverttl(FILE *file, GSM_Ringtone *ringtone)
{
GSM_RingNoteScale DefNoteScale;
GSM_RingNoteDuration DefNoteDuration;
GSM_RingNoteStyle DefNoteStyle=0;
int DefNoteTempo=0;
bool started = false, firstcomma = true;
GSM_RingNote *Note;
unsigned char buffer[15];
int i,j,k=0;
/* Saves ringtone name */
fprintf(file,"%s:",DecodeUnicodeString(ringtone->Name));
/* Find the most frequently used duration */
for (i=0;i<6;i++) buffer[i]=0;
for (i=0;i<ringtone->NoteTone.NrCommands;i++) {
if (ringtone->NoteTone.Commands[i].Type == RING_Note) {
Note = &ringtone->NoteTone.Commands[i].Note;
/* some durations need 2 bytes in file, some 1 */
if (Note->Duration >= Duration_Full && Note->Duration <= Duration_1_8) {
buffer[Note->Duration/32]++;
}
if (Note->Duration >= Duration_1_16 && Note->Duration <= Duration_1_32) {
buffer[Note->Duration/32]+=2;
}
}
}
/* Now find the most frequently used */
j=0;
for (i=0;i<6;i++) {
if (buffer[i]>j) {
k=i;
j=buffer[i];
}
}
/* Finally convert the default duration */
DefNoteDuration = k * 32;
dbgprintf("DefNoteDuration=%d\n", DefNoteDuration);
switch (DefNoteDuration) {
case Duration_Full:fprintf(file,"d=1"); break;
case Duration_1_2 :fprintf(file,"d=2"); break;
case Duration_1_4 :fprintf(file,"d=4"); break;
case Duration_1_8 :fprintf(file,"d=8"); break;
case Duration_1_16:fprintf(file,"d=16");break;
case Duration_1_32:fprintf(file,"d=32");break;
}
/* Find the most frequently used scale */
for (i=0;i<9;i++) buffer[i]=0;
for (i=0;i<ringtone->NoteTone.NrCommands;i++) {
if (ringtone->NoteTone.Commands[i].Type == RING_Note) {
Note = &ringtone->NoteTone.Commands[i].Note;
if (Note->Note!=Note_Pause &&
Note->Scale >= Scale_55 && Note->Scale <= Scale_14080) {
buffer[Note->Scale - 1]++;
}
}
}
j=0;
for (i=0;i<9;i++) {
if (buffer[i]>j) {
k = i;
j=buffer[i];
}
}
DefNoteScale = k + 1;
/* Save the default scale */
fprintf(file,",o=%i,",DefNoteScale);
dbgprintf("DefNoteScale=%d\n", DefNoteScale);
for (i=0;i<ringtone->NoteTone.NrCommands;i++) {
if (ringtone->NoteTone.Commands[i].Type != RING_Note) continue;
Note = &ringtone->NoteTone.Commands[i].Note;
/* Trick from PPM Edit */
if (Note->DurationSpec == DoubleDottedNote) {
switch (Note->Duration) {
case Duration_Full:Note->Duration = Duration_Full;break;
case Duration_1_2 :Note->Duration = Duration_Full;break;
case Duration_1_4 :Note->Duration = Duration_1_2; break;
case Duration_1_8 :Note->Duration = Duration_1_4; break;
case Duration_1_16:Note->Duration = Duration_1_8; break;
case Duration_1_32:Note->Duration = Duration_1_16;break;
}
Note->DurationSpec = NoSpecialDuration;
}
if (!started) {
DefNoteTempo=Note->Tempo;
DefNoteStyle=Note->Style;
switch (Note->Style) {
case StaccatoStyle : fprintf(file,"s=S,"); break;
case NaturalStyle : fprintf(file,"s=N,"); break;
case ContinuousStyle : break;
}
/* Save the default tempo */
fprintf(file,"b=%i:",DefNoteTempo);
dbgprintf("DefNoteTempo=%d\n", DefNoteTempo);
started = true;
firstcomma = true;
}
if (!started) continue;
if (Note->Style!=DefNoteStyle) {
/* And a separator */
if (!firstcomma) fprintf(file,",");
firstcomma = false;
DefNoteStyle=Note->Style;
switch (Note->Style) {
case StaccatoStyle : fprintf(file,"s=S"); break;
case NaturalStyle : fprintf(file,"s=N"); break;
case ContinuousStyle: fprintf(file,"s=C"); break;
}
}
if (Note->Tempo!=DefNoteTempo) {
/* And a separator */
if (!firstcomma) fprintf(file,",");
firstcomma = false;
DefNoteTempo=Note->Tempo;
fprintf(file,"b=%i",DefNoteTempo);
}
/* This note has a duration different than the default. We must save it */
if (Note->Duration!=DefNoteDuration) {
/* And a separator */
if (!firstcomma) fprintf(file,",");
firstcomma = false;
switch (Note->Duration) {
case Duration_Full:fprintf(file,"1"); break;
case Duration_1_2 :fprintf(file,"2"); break;
case Duration_1_4 :fprintf(file,"4"); break;
case Duration_1_8 :fprintf(file,"8"); break;
case Duration_1_16:fprintf(file,"16");break;
case Duration_1_32:fprintf(file,"32");break;
}
} else {
/* And a separator */
if (!firstcomma) fprintf(file,",");
firstcomma = false;
}
/* Now save the actual note */
switch (Note->Note) {
case Note_C :fprintf(file,"c"); break;
case Note_Cis:fprintf(file,"c#"); break;
case Note_D :fprintf(file,"d"); break;
case Note_Dis:fprintf(file,"d#"); break;
case Note_E :fprintf(file,"e"); break;
case Note_F :fprintf(file,"f"); break;
case Note_Fis:fprintf(file,"f#"); break;
case Note_G :fprintf(file,"g"); break;
case Note_Gis:fprintf(file,"g#"); break;
case Note_A :fprintf(file,"a"); break;
case Note_Ais:fprintf(file,"a#"); break;
case Note_H :fprintf(file,"h"); break;
default :fprintf(file,"p"); break; /*Pause ?*/
}
switch (Note->DurationSpec) {
case DottedNote : fprintf(file,"."); break;
default : break;
}
if (Note->Note!=Note_Pause && Note->Scale != DefNoteScale) {
fprintf(file,"%i",Note->Scale);
}
}
return ERR_NONE;
}
void saveimelody(FILE *file, GSM_Ringtone *ringtone)
{
char Buffer[2000];
int i=2000;
GSM_EncodeEMSSound(*ringtone, Buffer, &i, (float)1.2, true);
fwrite(Buffer, 1, i, file);
}
#ifndef ENABLE_LGPL
static void WriteVarLen(unsigned char* midifile, int* current, long value)
{
long buffer;
buffer = value & 0x7f;
while (value >>= 7) {
buffer <<= 8;
buffer |= 0x80;
buffer += (value & 0x7f);
}
while (1) {
midifile[(*current)++] = (unsigned char)buffer;
if (buffer & 0x80) {
buffer >>= 8;
} else {
break;
}
}
}
#define singlepauses
/* FIXME: need adding tempo before each note and scale too ? */
void savemid(FILE* file, GSM_Ringtone *ringtone)
{
int pause = 0, current = 26, duration, i, note=0, length = 20;
bool started = false;
GSM_RingNote *Note;
unsigned char midifile[3000] = {
0x4D, 0x54, 0x68, 0x64, // MThd
0x00, 0x00, 0x00, 0x06, // chunk length
0x00, 0x00, // format 0
0x00, 0x01, // one track
0x00, 0x20, // 32 per quarter note
0x4D, 0x54, 0x72, 0x6B, // MTrk
0x00, 0x00, 0x00, 0x00, // chunk length
0x00, 0xFF, 0x51, 0x03, // tempo meta event
0x00, 0x00, 0x00}; // 3 bytes for us for a quarter note
for (i = 0; i < ringtone->NoteTone.NrCommands; i++) {
if (ringtone->NoteTone.Commands[i].Type == RING_Note) {
Note = &ringtone->NoteTone.Commands[i].Note;
if (!started) {
/* readmid does not read pauses at the beginning */
if (Note->Note != Note_Pause) {
/* FIXME: we need add tempo before each note or so... */
long duration=60000000/Note->Tempo;
midifile[current++] = (unsigned char)(duration >> 16);
midifile[current++] = (unsigned char)(duration >> 8);
midifile[current++] = (unsigned char)duration;
started = true;
}
}
if (!started) continue;
duration = GSM_RingNoteGetFullDuration(*Note);
if (Note->Note == Note_Pause) {
pause += duration;
#ifdef singlepauses
WriteVarLen(midifile,&current,pause);
pause=0;
midifile[current++]=0x00; // pause
midifile[current++]=0x00;
#endif
} else {
if (Note->Note >= Note_C && Note->Note <= Note_H) {
note = Note->Note/16 + 12 * Note->Scale - 1;
}
WriteVarLen(midifile,&current,pause);
pause=0;
midifile[current++]=0x90; // note on
midifile[current++]=note;
midifile[current++]=0x64; // forte
WriteVarLen(midifile,&current,duration);
midifile[current++]=0x80; // note off
midifile[current++]=note;
midifile[current++]=0x64;
}
}
}
if (pause) {
WriteVarLen(midifile,&current,pause);
midifile[current++]=0x00; // pause
midifile[current++]=0x00; //
}
midifile[current++] = 0x00;
midifile[current++] = 0xFF; // track end
midifile[current++] = 0x2F;
midifile[current++] = 0x00;
midifile[length++] = (current-22) >> 8;
midifile[length++] = current-22;
fwrite(midifile,1,current,file);
}
#endif
void saveott(FILE *file, GSM_Ringtone *ringtone)
{
char Buffer[2000];
int i=2000;
GSM_EncodeNokiaRTTLRingtone(*ringtone, Buffer, &i);
fwrite(Buffer, 1, i, file);
}
GSM_Error GSM_SaveRingtoneFile(char *FileName, GSM_Ringtone *ringtone)
{
FILE *file;
file = fopen(FileName, "wb");
if (file == NULL) return ERR_CANTOPENFILE;
switch (ringtone->Format) {
case RING_NOTETONE:
if (strstr(FileName,".ott")) {
saveott(file,ringtone);
#ifndef ENABLE_LGPL
} else if (strstr(FileName,".mid")) {
savemid(file,ringtone);
#endif
} else if (strstr(FileName,".rng")) {
saveott(file,ringtone);
} else if (strstr(FileName,".imy")) {
saveimelody(file,ringtone);
} else if (strstr(FileName,".ime")) {
saveimelody(file,ringtone);
} else if (strstr(FileName,".wav")) {
savewav(file,ringtone);
} else {
saverttl(file, ringtone);
}
break;
case RING_NOKIABINARY:
savebin(file, ringtone);
break;
case RING_MIDI:
savepuremidi(file, ringtone);
break;
}
fclose(file);
return ERR_NONE;
}
static GSM_Error loadrttl(FILE *file, GSM_Ringtone *ringtone)
{
GSM_RingNoteScale DefNoteScale = Scale_880;
GSM_RingNoteDuration DefNoteDuration = Duration_1_4;
GSM_RingNoteStyle DefNoteStyle = NaturalStyle;
int DefNoteTempo = 63, i=0;
unsigned char buffer[2000],Name[100];
GSM_RingNote *Note;
fread(buffer, 2000, 1, file);
ringtone->NoteTone.NrCommands = 0;
/* -------------- name ---------------- */
while (buffer[i] != ':') {
if (buffer[i] == 0x00) return ERR_NONE;
i++;
}
if (i == 0) {
/* This is for RTTL ringtones without name. */
EncodeUnicode(ringtone->Name,"Gammu",5);
} else {
memcpy(Name,buffer,i);
Name[i] = 0x00;
EncodeUnicode(ringtone->Name,Name,strlen(Name));
}
i++;
/* --------- section with default ringtone settings ----------- */
while(1) {
switch (buffer[i]) {
case ':':
break;
case 0x00:
return ERR_NONE;
case 'd': case 'D':
switch (atoi(buffer+i+2)) {
case 1: DefNoteDuration = Duration_Full; break;
case 2: DefNoteDuration = Duration_1_2 ; break;
case 4: DefNoteDuration = Duration_1_4 ; break;
case 8: DefNoteDuration = Duration_1_8 ; break;
case 16: DefNoteDuration = Duration_1_16; break;
case 32: DefNoteDuration = Duration_1_32; break;
}
break;
case 'o': case 'O':
switch (atoi(buffer+i+2)) {
case 4: DefNoteScale = Scale_440 ; break;
case 5: DefNoteScale = Scale_880 ; break;
case 6: DefNoteScale = Scale_1760; break;
case 7: DefNoteScale = Scale_3520; break;
}
break;
case 'b': case 'B':
DefNoteTempo=atoi(buffer+i+2);
dbgprintf("Tempo = %i\n",DefNoteTempo);
break;
case 's': case 'S':
switch (buffer[i+1]) {
case 'C': case 'c': DefNoteStyle=ContinuousStyle; break;
case 'N': case 'n': DefNoteStyle=NaturalStyle; break;
case 'S': case 's': DefNoteStyle=StaccatoStyle; break;
}
switch (buffer[i+2]) {
case 'C': case 'c': DefNoteStyle=ContinuousStyle; break;
case 'N': case 'n': DefNoteStyle=NaturalStyle; break;
case 'S': case 's': DefNoteStyle=StaccatoStyle; break;
}
break;
}
while (buffer[i] != ':' && buffer[i] != ',') {
if (buffer[i] == 0x00) return ERR_NONE;
i++;
}
if (buffer[i] == ',') i++;
if (buffer[i] == ':') break;
}
dbgprintf("DefNoteDuration=%d\n", DefNoteDuration);
dbgprintf("DefNoteScale=%d\n", DefNoteScale);
i++;
/* ------------------------- notes ------------------------------ */
while (buffer[i] != 0x00 && ringtone->NoteTone.NrCommands != MAX_RINGTONE_NOTES) {
switch(buffer[i]) {
case 'z': case 'Z':
switch (buffer[i+1]) {
case 'd':
ringtone->NoteTone.Commands[ringtone->NoteTone.NrCommands].Type = RING_DisableLED;
ringtone->NoteTone.NrCommands++;
break;
case 'D':
ringtone->NoteTone.Commands[ringtone->NoteTone.NrCommands].Type = RING_EnableLED;
ringtone->NoteTone.NrCommands++;
break;
case 'v':
ringtone->NoteTone.Commands[ringtone->NoteTone.NrCommands].Type = RING_DisableVibra;
ringtone->NoteTone.NrCommands++;
break;
case 'V':
ringtone->NoteTone.Commands[ringtone->NoteTone.NrCommands].Type = RING_EnableVibra;
ringtone->NoteTone.NrCommands++;
break;
case 'l':
ringtone->NoteTone.Commands[ringtone->NoteTone.NrCommands].Type = RING_DisableLight;
ringtone->NoteTone.NrCommands++;
break;
case 'L':
ringtone->NoteTone.Commands[ringtone->NoteTone.NrCommands].Type = RING_EnableLight;
ringtone->NoteTone.NrCommands++;
}
break;
case 'o': case 'O':
switch (buffer[i+2]) {
case 4: DefNoteScale = Scale_440 ; break;
case 5: DefNoteScale = Scale_880 ; break;
case 6: DefNoteScale = Scale_1760; break;
case 7: DefNoteScale = Scale_3520; break;
}
break;
case 's': case 'S':
switch (buffer[i+1]) {
case 'C': case 'c': DefNoteStyle=ContinuousStyle; break;
case 'N': case 'n': DefNoteStyle=NaturalStyle; break;
case 'S': case 's': DefNoteStyle=StaccatoStyle; break;
}
switch (buffer[i+2]) {
case 'C': case 'c': DefNoteStyle=ContinuousStyle; break;
case 'N': case 'n': DefNoteStyle=NaturalStyle; break;
case 'S': case 's': DefNoteStyle=StaccatoStyle; break;
}
break;
default:
ringtone->NoteTone.Commands[ringtone->NoteTone.NrCommands].Type = RING_Note;
Note = &ringtone->NoteTone.Commands[ringtone->NoteTone.NrCommands].Note;
Note->Style = DefNoteStyle;
Note->Tempo = DefNoteTempo;
Note->Scale = DefNoteScale;
Note->Duration = DefNoteDuration;
Note->DurationSpec = NoSpecialDuration;
Note->Note = Note_Pause;
/* Duration */
switch (atoi(buffer+i)) {
case 1: Note->Duration = Duration_Full ; break;
case 2: Note->Duration = Duration_1_2 ; break;
case 4: Note->Duration = Duration_1_4 ; break;
case 8: Note->Duration = Duration_1_8 ; break;
case 16: Note->Duration = Duration_1_16 ; break;
case 32: Note->Duration = Duration_1_32 ; break;
}
/* We skip all numbers from duration specification */
while(isdigit(buffer[i])) i++;
/* Some files can have special duration here */
if (buffer[i]=='.') {
Note->DurationSpec = DottedNote;
i++;
}
/* Note */
/* B or b is not in specs, but I decided to put it, because
* it's in some RTTL files. It's the same to H note */
switch (buffer[i]) {
case 'A': case 'a': Note->Note = Note_A; break;
case 'B': case 'b': Note->Note = Note_H; break;
case 'C': case 'c': Note->Note = Note_C; break;
case 'D': case 'd': Note->Note = Note_D; break;
case 'E': case 'e': Note->Note = Note_E; break;
case 'F': case 'f': Note->Note = Note_F; break;
case 'G': case 'g': Note->Note = Note_G; break;
case 'H': case 'h': Note->Note = Note_H; break;
}
i++;
if (buffer[i]=='#') {
switch (Note->Note) {
case Note_A : Note->Note = Note_Ais; break;
case Note_C : Note->Note = Note_Cis; break;
case Note_D : Note->Note = Note_Dis; break;
case Note_F : Note->Note = Note_Fis; break;
case Note_G : Note->Note = Note_Gis; break;
default : break;
}
i++;
}
/* Some files can have special duration here */
if (buffer[i]=='.') {
Note->DurationSpec = DottedNote;
i++;
}
/* Scale */
if (Note->Note!=Note_Pause && isdigit(buffer[i])) {
switch (atoi(buffer+i)) {
case 4: Note->Scale = Scale_440 ; break;
case 5: Note->Scale = Scale_880 ; break;
case 6: Note->Scale = Scale_1760; break;
case 7: Note->Scale = Scale_3520; break;
}
i++;
}
ringtone->NoteTone.NrCommands++;
break;
}
while (buffer[i] != ',') {
if (buffer[i] == 0x00) return ERR_NONE;
i++;
}
if (buffer[i] == ',') i++;
}
return ERR_NONE;
}
static GSM_Error loadott(FILE *file, GSM_Ringtone *ringtone)
{
char Buffer[2000];
int i;
i=fread(Buffer, 1, 2000, file);
return GSM_DecodeNokiaRTTLRingtone(ringtone, Buffer, i);
}
static GSM_Error loadcommunicator(FILE *file, GSM_Ringtone *ringtone)
{
char Buffer[4000];
int i,j;
i=fread(Buffer, 1, 4000, file);
i=0;j=0;
while (true) {
if (Buffer[j] ==0x00 && Buffer[j+1]==0x02 &&
Buffer[j+2]==0x4a && Buffer[j+3]==0x3a) break;
if (j==i-4) return ERR_UNKNOWN;
j++;
}
j++;
return GSM_DecodeNokiaRTTLRingtone(ringtone, Buffer+j, i-j);
}
static GSM_Error loadbin(FILE *file, GSM_Ringtone *ringtone)
{
int i;
unsigned char buffer[2000];
dbgprintf("loading binary\n");
ringtone->NokiaBinary.Length=fread(buffer, 1, 500, file);
i=5;
while (buffer[i]!=0x00) i++;
EncodeUnicode(ringtone->Name,buffer+5,i-5);
while (buffer[i]!=0x02 && buffer[i+1]!=0xFC && buffer[i+2]!=0x09) {
i++;
}
ringtone->NokiaBinary.Length=ringtone->NokiaBinary.Length-i;
memcpy(ringtone->NokiaBinary.Frame,buffer+i,ringtone->NokiaBinary.Length);
dbgprintf("Length %i name \"%s\"\n",ringtone->NokiaBinary.Length,DecodeUnicodeString(ringtone->Name));
return ERR_NONE;
}
static GSM_Error loadpuremidi(FILE *file, GSM_Ringtone *ringtone)
{
unsigned char buffer[30000];
dbgprintf("loading midi\n");
EncodeUnicode(ringtone->Name,"MIDI",4);
ringtone->NokiaBinary.Length=fread(buffer, 1, 30000, file);
memcpy(ringtone->NokiaBinary.Frame,buffer,ringtone->NokiaBinary.Length);
dbgprintf("Length %i name \"%s\"\n",ringtone->NokiaBinary.Length,DecodeUnicodeString(ringtone->Name));
return ERR_NONE;
}
static GSM_Error loadre(FILE *file, GSM_Ringtone *ringtone)
{
unsigned char buffer[2000];
ringtone->NokiaBinary.Length=fread(buffer, 1, 500, file);
if (buffer[18]==0x00 && buffer[21]!=0x02) {
/* DCT3, Unicode subformat, 62xx & 7110 */
CopyUnicodeString(ringtone->Name,buffer+18);
ringtone->NokiaBinary.Length = ringtone->NokiaBinary.Length - (21+UnicodeLength(ringtone->Name)*2);
memcpy(ringtone->NokiaBinary.Frame,buffer+21+UnicodeLength(ringtone->Name)*2,ringtone->NokiaBinary.Length);
} else {
/* DCT3, normal subformat, 32xx/33xx/51xx/5210/5510/61xx/8xxx */
EncodeUnicode(ringtone->Name,buffer+17,buffer[16]);
ringtone->NokiaBinary.Length = ringtone->NokiaBinary.Length - (19+UnicodeLength(ringtone->Name));
memcpy(ringtone->NokiaBinary.Frame,buffer+19+UnicodeLength(ringtone->Name),ringtone->NokiaBinary.Length);
}
dbgprintf("Name \"%s\"\n",DecodeUnicodeString(ringtone->Name));
return ERR_NONE;
}
GSM_Error GSM_ReadRingtoneFile(char *FileName, GSM_Ringtone *ringtone)
{
FILE *file;
unsigned char buffer[300];
GSM_Error error = ERR_UNKNOWN;
dbgprintf("Loading ringtone %s\n",FileName);
file = fopen(FileName, "rb");
if (file == NULL) return ERR_CANTOPENFILE;
/* Read the header of the file. */
fread(buffer, 1, 4, file);
if (ringtone->Format == 0x00) {
ringtone->Format = RING_NOTETONE;
if (buffer[0]==0x00 && buffer[1]==0x00 &&
buffer[2]==0x0C && buffer[3]==0x01) {
ringtone->Format = RING_NOKIABINARY;
}
if (buffer[0]==0x00 && buffer[1]==0x00 &&
buffer[2]==0x00) {
ringtone->Format = RING_NOKIABINARY;
}
if (buffer[0]==0x4D && buffer[1]==0x54 &&
buffer[2]==0x68 && buffer[3]==0x64) {
ringtone->Format = RING_MIDI;
}
}
rewind(file);
switch (ringtone->Format) {
case RING_NOTETONE:
if (buffer[0]==0x02 && buffer[1]==0x4A) {
error=loadott(file,ringtone);
} else if (buffer[0]==0xC7 && buffer[1]==0x45) {
error=loadcommunicator(file,ringtone);
} else {
error=loadrttl(file,ringtone);
}
ringtone->NoteTone.AllNotesScale=false;
break;
case RING_NOKIABINARY:
if (buffer[0]==0x00 && buffer[1]==0x00 &&
buffer[2]==0x0C && buffer[3]==0x01) {
error=loadbin(file,ringtone);
}
if (buffer[0]==0x00 && buffer[1]==0x00 &&
buffer[2]==0x00) {
error=loadre(file,ringtone);
}
break;
case RING_MIDI:
EncodeUnicode(ringtone->Name,FileName,strlen(FileName));
error = loadpuremidi(file,ringtone);
}
fclose(file);
return(error);
}
/* -------------------------- required with Nokia & RTTL ------------------- */
/* Beats per Minute like written in Smart Messaging */
static int SM_BeatsPerMinute[] = {
25, 28, 31, 35, 40, 45, 50, 56, 63, 70,
80, 90, 100, 112, 125, 140, 160, 180, 200, 225,
250, 285, 320, 355, 400, 450, 500, 565, 635, 715,
800, 900
};
int GSM_RTTLGetTempo(int Beats)
{
int i=0;
while (Beats > SM_BeatsPerMinute[i] && SM_BeatsPerMinute[i] != 900) i++;
return i<<3;
}
/* This function packs the ringtone from the structure "ringtone" to
"package", where maxlength means length of package.
Function returns number of packed notes and change maxlength to
number of used chars in "package" */
unsigned char GSM_EncodeNokiaRTTLRingtone(GSM_Ringtone ringtone, unsigned char *package, int *maxlength)
{
unsigned char CommandLength = 0x02;
unsigned char Loop = 0x15; /* Infinite */
unsigned char Buffer[200];
int StartBit=0, OldStartBit;
int StartBitHowManyCommands;
int HowManyCommands = 0; /* How many instructions packed */
int HowManyNotes = 0;
int i,j;
bool started;
GSM_RingNote *Note;
GSM_RingNoteScale DefScale = 255;
GSM_RingNoteStyle DefStyle = 255;
int DefTempo = 255;
AddBufferByte(package, &StartBit, CommandLength, 8);
AddBufferByte(package, &StartBit, SM_Command_RingingToneProgramming, 7);
/* According to specification we need have next part octet-aligned */
BufferAlign(package, &StartBit);
AddBufferByte(package, &StartBit, SM_Command_Sound, 7);
AddBufferByte(package, &StartBit, SM_Song_BasicSongType, 3);
/* Packing the name of the tune. */
EncodeUnicodeSpecialNOKIAChars(Buffer, ringtone.Name, UnicodeLength(ringtone.Name));
AddBufferByte(package, &StartBit, ((unsigned char)(UnicodeLength(Buffer)<<4)), 4);
AddBuffer(package, &StartBit, DecodeUnicodeString(Buffer), 8*UnicodeLength(Buffer));
/* Packing info about song pattern */
AddBufferByte(package, &StartBit, 0x01, 8); //one pattern
AddBufferByte(package, &StartBit, SM_InstructionID_PatternHeaderId, 3);
AddBufferByte(package, &StartBit, SM_PatternID_A_part, 2);
AddBufferByte(package, &StartBit, ((unsigned char)(Loop<<4)), 4);
/* Later here will be HowManyCommands */
StartBitHowManyCommands=StartBit;
StartBit = StartBit + 8;
started = false;
for (i=0; i<ringtone.NoteTone.NrCommands; i++) {
if (ringtone.NoteTone.Commands[i].Type != RING_Note) {
HowManyNotes++;
continue;
}
Note = &ringtone.NoteTone.Commands[i].Note;
if (!started) {
/* First note can't be Pause - it makes problems
* for example with PC Composer
*/
if (Note->Note != Note_Pause) started = true;
}
if (!started) {
HowManyNotes++;
continue;
}
OldStartBit = StartBit;
/* we don't write Scale & Style info before "Pause" note - it saves place */
if (Note->Note!=Note_Pause) {
if (DefScale != Note->Scale || ringtone.NoteTone.AllNotesScale) {
j = StartBit+5+8;
BufferAlignNumber(&j);
if ((j/8)>(*maxlength)) {
StartBit = OldStartBit;
break;
}
DefScale = Note->Scale;
AddBufferByte(package, &StartBit, SM_InstructionID_ScaleInstructionId, 3);
AddBufferByte(package, &StartBit, ((unsigned char)((DefScale-4)<<6)), 2);
HowManyCommands++;
}
if (DefStyle != Note->Style) {
j = StartBit+5+8;
BufferAlignNumber(&j);
if ((j/8)>(*maxlength)) {
StartBit = OldStartBit;
break;
}
DefStyle = Note->Style;
AddBufferByte(package, &StartBit, SM_InstructionID_StyleInstructionId, 3);
AddBufferByte(package, &StartBit, ((unsigned char)DefStyle), 2);
HowManyCommands++;
}
}
/* Beats per minute/tempo of the tune */
if (DefTempo != GSM_RTTLGetTempo(Note->Tempo)) {
j = StartBit+8+8;
BufferAlignNumber(&j);
if ((j/8)>(*maxlength)) {
StartBit = OldStartBit;
break;
}
DefTempo=GSM_RTTLGetTempo(Note->Tempo);
/* Adding beats per minute (tempo) of the tune */
AddBufferByte(package, &StartBit, SM_InstructionID_TempoInstructionId, 3);
AddBufferByte(package, &StartBit, ((unsigned char)DefTempo), 5);
HowManyCommands++;
}
j = StartBit+12+8;
BufferAlignNumber(&j);
if ((j/8)>(*maxlength)) {
StartBit = OldStartBit;
break;
}
/* Note */
AddBufferByte(package, &StartBit, SM_InstructionID_NoteInstructionId, 3);
AddBufferByte(package, &StartBit, ((unsigned char)Note->Note), 4);
AddBufferByte(package, &StartBit, ((unsigned char)Note->Duration), 3);
AddBufferByte(package, &StartBit, ((unsigned char)Note->DurationSpec), 2);
HowManyCommands++;
/* We are sure, we pack it for SMS or setting to phone, not for OTT file */
if (*maxlength<1000) {
/* Like Pc Composer say - before of phone limitations...*/
if (HowManyNotes==130-1) break;
}
HowManyNotes++;
}
BufferAlign(package, &StartBit);
AddBufferByte(package, &StartBit, SM_CommandEnd_CommandEnd, 8);
OldStartBit = StartBit;
StartBit = StartBitHowManyCommands;
/* HowManyCommands */
AddBufferByte(package, &StartBit, ((unsigned char)HowManyCommands), 8);
StartBit = OldStartBit;
*maxlength=StartBit/8;
return(i);
}
GSM_Error GSM_DecodeNokiaRTTLRingtone(GSM_Ringtone *ringtone, unsigned char *package, int maxlength)
{
int StartBit=0, HowMany, l, q, i, spec;
char Buffer[100];
GSM_RingNote *Note;
/* Default ringtone parameters */
GSM_RingNoteScale DefScale = Scale_880;
GSM_RingNoteStyle DefStyle = NaturalStyle;
int DefTempo = 63;
ringtone->Format = RING_NOTETONE;
ringtone->NoteTone.NrCommands = 0;
GetBufferInt(package,&StartBit,&l,8);
if (l!=0x02) {
dbgprintf("Not header\n");
return ERR_NOTSUPPORTED;
}
GetBufferInt(package,&StartBit,&l,7);
if (l!=SM_Command_RingingToneProgramming) {
dbgprintf("Not RingingToneProgramming\n");
return ERR_NOTSUPPORTED;
}
/* According to specification we need have next part octet-aligned */
BufferAlignNumber(&StartBit);
GetBufferInt(package,&StartBit,&l,7);
if (l!=SM_Command_Sound) {
dbgprintf("Not Sound\n");
return ERR_NOTSUPPORTED;
}
GetBufferInt(package,&StartBit,&l,3);
if (l!=SM_Song_BasicSongType) {
dbgprintf("Not BasicSongType\n");
return ERR_NOTSUPPORTED;
}
/* Getting length of the tune name */
GetBufferInt(package,&StartBit,&l,4);
l=l>>4;
/* Unpacking the name of the tune. */
GetBuffer(package, &StartBit, Buffer, 8*l);
Buffer[l]=0;
EncodeUnicode(ringtone->Name,Buffer,strlen(Buffer));
DecodeUnicodeSpecialNOKIAChars(Buffer, ringtone->Name, UnicodeLength(ringtone->Name));
CopyUnicodeString(ringtone->Name,Buffer);
GetBufferInt(package,&StartBit,&l,8);
dbgprintf("Number of song patterns: %i\n",l);
/* we support only one song pattern */
if (l!=1) return ERR_NOTSUPPORTED;
GetBufferInt(package,&StartBit,&l,3);
if (l!=SM_InstructionID_PatternHeaderId) {
dbgprintf("Not PatternHeaderId\n");
return ERR_NOTSUPPORTED;
}
/* Pattern ID - we ignore it */
StartBit+=2;
GetBufferInt(package,&StartBit,&l,4);
l=l>>4;
dbgprintf("Loop value: %i\n",l);
HowMany=0;
GetBufferInt(package, &StartBit, &HowMany, 8);
for (i=0;i<HowMany;i++) {
GetBufferInt(package,&StartBit,&q,3);
switch (q) {
case SM_InstructionID_VolumeInstructionId:
StartBit+=4;
break;
case SM_InstructionID_StyleInstructionId:
GetBufferInt(package,&StartBit,&l,2);
if (l>=NaturalStyle && l<=StaccatoStyle) DefStyle = l;
break;
case SM_InstructionID_TempoInstructionId:
GetBufferInt(package,&StartBit,&l,5);
DefTempo=SM_BeatsPerMinute[l>>3];
break;
case SM_InstructionID_ScaleInstructionId:
GetBufferInt(package,&StartBit,&l,2);
DefScale=(l>>6)+4;
break;
case SM_InstructionID_NoteInstructionId:
Note = &ringtone->NoteTone.Commands[ringtone->NoteTone.NrCommands].Note;
ringtone->NoteTone.Commands[ringtone->NoteTone.NrCommands].Type = RING_Note;
GetBufferInt(package,&StartBit,&l,4);
Note->Note=Note_Pause;
if (l >= Note_C && l <= Note_H) Note->Note = l;
GetBufferInt(package,&StartBit,&l,3);
if (l >= Duration_Full && l <= Duration_1_32) Note->Duration = l;
GetBufferInt(package,&StartBit,&spec,2);
if (spec >= NoSpecialDuration && spec <= Length_2_3) {
Note->DurationSpec = spec;
}
Note->Scale = DefScale;
Note->Style = DefStyle;
Note->Tempo = DefTempo;
if (ringtone->NoteTone.NrCommands==MAX_RINGTONE_NOTES) break;
ringtone->NoteTone.NrCommands++;
break;
default:
dbgprintf("Unsupported block %i %i\n",q,i);
return ERR_NOTSUPPORTED;
}
}
return ERR_NONE;
}
static void RTTL2Binary(GSM_Ringtone *dest, GSM_Ringtone *src)
{
int current = 0, i, note, lastnote = 0, duration;
GSM_RingNote *Note;
unsigned char end[] = {0x40, 0x7D, 0x40, 0x5C, 0x0A, 0xFE, 0x40,
0x20, 0x40, 0x7D, 0x40, 0x37, 0x0A, 0xFE,
0x0A, 0x0A, 0x40, 0x32, 0x07, 0x0B};
strcpy(dest->NokiaBinary.Frame+current,"\x02\xFC\x09"); current=current+3;
dest->NokiaBinary.Frame[current++]=0x00;
/* This command can be used to loop, where 0xLL = 0x01 - 0x10
* 0x01=loop once [...] 0x10=loop infinite
* Commented now
dest->NokiaBinary.Frame[current++]=0x05;
dest->NokiaBinary.Frame[current++]=0xLL;
*/
strcpy(dest->NokiaBinary.Frame+current,"\x0A\x01"); current=current+2;
for (i=0; i<src->NoteTone.NrCommands; i++) {
if (src->NoteTone.Commands[i].Type != RING_Note) continue;
Note = &src->NoteTone.Commands[i].Note;
note = 64; /* Pause */
if (Note->Note!=Note_Pause) {
if (Note->Note >= Note_C && Note->Note <= Note_H) {
note = 113 + Note->Note/16;
}
switch (Note->Scale) {
case Scale_440 : break;
case Scale_880 : note = note + 12; break;
case Scale_1760: note = note + 24; break;
case Scale_3520: note = note + 36; break;
default : break;
}
}
/* In 7110 we have 8 ms long sounds */
duration = 60000 * GSM_RingNoteGetFullDuration(*Note) / Note->Tempo / 256;
switch (Note->Style) {
case StaccatoStyle:
if (duration) {
/* Note needs only one sound */
dest->NokiaBinary.Frame[current++] = note;
dest->NokiaBinary.Frame[current++] = 1;
duration--;
}
note = 0x40; /* The rest is pause */
case NaturalStyle:
if (note != 0x40 && duration) {
dest->NokiaBinary.Frame[current++] = 0x40;
/* There is small pause between notes */
dest->NokiaBinary.Frame[current++] = 1;
duration--;
}
default:
if (note != 0x40 && note == lastnote && duration) {
dest->NokiaBinary.Frame[current++] = 0x40;
/* There is small pause between same notes */
dest->NokiaBinary.Frame[current++] = 1;
duration--;
}
while (duration > 125) {
dest->NokiaBinary.Frame[current++] = note;
dest->NokiaBinary.Frame[current++] = 125;
duration -= 125;
}
dest->NokiaBinary.Frame[current++] = note;
dest->NokiaBinary.Frame[current++] = duration;
}
lastnote = note;
}
for (i = 0; i < (int)sizeof(end); i++) dest->NokiaBinary.Frame[current++] = end[i];
dest->NokiaBinary.Length=current;
}
static void Binary2RTTL(GSM_Ringtone *dest, GSM_Ringtone *src)
{
int i = 3, j, z, NrNotes = 0, repeat = 0, accuracy;
int StartRepeat = 0, EndRepeat, Speed;
unsigned char command,length=0;
int NotesLen[500];
GSM_RingNoteScale NotesScale[500];
GSM_RingNoteNote Notes[500];
int Lengths[6*4];
GSM_RingNoteDurationSpec DurationSpec[6*4];
GSM_RingNoteDuration Duration[6*4];
bool foundlen;
GSM_RingNote *Note;
while (i<src->NokiaBinary.Length) {
command = src->NokiaBinary.Frame[i];
i++;
if (command != 0x06 && command != 0x00 && command != 0x09) {
length = src->NokiaBinary.Frame[i];
i++;
dbgprintf("Block %02x %02x - ",length,command);
} else dbgprintf("Block %02x - ",command);
if (command >= 114 && command <= 161) {
dbgprintf("note\n");
if (command >= 114 && command <= 124) {
NotesScale[NrNotes] = Scale_440; command -= 114;
} else if (command >= 125 && command <= 137) {
NotesScale[NrNotes] = Scale_880; command -= 126;
} else if (command >= 138 && command <= 149) {
NotesScale[NrNotes] = Scale_1760; command -= 138;
} else if (command >= 150 && command <= 161) {
NotesScale[NrNotes] = Scale_3520; command -= 150;
}
switch (command) {
case 0 : Notes[NrNotes] = Note_C; break;
case 1 : Notes[NrNotes] = Note_Cis; break;
case 2 : Notes[NrNotes] = Note_D; break;
case 3 : Notes[NrNotes] = Note_Dis; break;
case 4 : Notes[NrNotes] = Note_E; break;
case 5 : Notes[NrNotes] = Note_F; break;
case 6 : Notes[NrNotes] = Note_Fis; break;
case 7 : Notes[NrNotes] = Note_G; break;
case 8 : Notes[NrNotes] = Note_Gis; break;
case 9 : Notes[NrNotes] = Note_A; break;
case 10 : Notes[NrNotes] = Note_Ais; break;
case 11 : Notes[NrNotes] = Note_H; break;
}
if (NrNotes > 0) {
if (Notes[NrNotes-1] == Notes[NrNotes] &&
NotesScale[NrNotes-1] == NotesScale[NrNotes]) {
NotesLen[NrNotes-1]+=length;
} else {
NotesLen[NrNotes]=length;
NrNotes++;
}
} else {
NotesLen[NrNotes]=length;
NrNotes++;
}
} else switch (command) {
case 0x00:
dbgprintf("Unknown\n");
break;
case 0x05:
dbgprintf("repeat %i times\n",length);
repeat = length;
StartRepeat = NrNotes;
break;
case 0x06:
dbgprintf("end repeat\n");
EndRepeat = NrNotes;
for (z=0;z<repeat-1;z++) {
for (j=StartRepeat;j<EndRepeat;j++) {
Notes[NrNotes] = Notes[j];
NotesScale[NrNotes] = NotesScale[j];
NotesLen[NrNotes] = NotesLen[j];
NrNotes++;
dbgprintf("Adding repeat note %i %i\n",Notes[j],NotesLen[j]);
}
}
break;
case 0x07:
if (length == 0x0B) {
dbgprintf("Ringtone end\n");
i = src->NokiaBinary.Length + 1;
}
break;
case 0x09:
dbgprintf("Unknown\n");
break;
case 0x0A:
if (length == 0x01) {
dbgprintf("Let's start our song\n");
break;
}
if (length == 0x0A) {
dbgprintf("Ending joining note\n");
break;
}
if (length == 0xFE) {
dbgprintf("Starting joining note\n");
break;
}
break;
case 0x40:
dbgprintf("Pause\n");
Notes[NrNotes] = Note_Pause;
if (NrNotes > 0) {
if (Notes[NrNotes-1] == Notes[NrNotes] &&
NotesScale[NrNotes-1] == NotesScale[NrNotes]) {
NotesLen[NrNotes-1]+=length;
} else {
NotesLen[NrNotes]=length;
NrNotes++;
}
} else {
NotesLen[NrNotes]=length;
NrNotes++;
}
break;
default:
dbgprintf("Unknown\n");
}
}
while (NrNotes>0) {
if (Notes[NrNotes-1] == Note_Pause) {
NrNotes--;
} else break;
}
for (accuracy=1; accuracy<5; accuracy++) {
i = 1;
while (i < 1000) {
Lengths[0] = 30000/i;
for (j=0;j<5;j++) Lengths[j+1] = Lengths[j] / 2;
for (j=0;j<6;j++) Lengths[6+j] = Lengths[j] * 3/2;
for (j=0;j<6;j++) Lengths[12+j] = Lengths[j] * 9/4;
for (j=0;j<6;j++) Lengths[18+j] = Lengths[j] * 2/3;
#ifdef DEBUG
dbgprintf("Length matrix (%i) : ",i);
for (j=0;j<6*4;j++) dbgprintf("%i ",Lengths[j]);
dbgprintf("\n");
#endif
foundlen = false;
for (j=0;j<NrNotes;j++) {
dbgprintf("Comparing to %i\n",NotesLen[j]);
foundlen = false;
for (z=0;z<6*4;z++) {
if (NotesLen[j] - Lengths[z] > -accuracy &&
NotesLen[j] - Lengths[z] < accuracy) {
foundlen = true;
break;
}
}
if (!foundlen) break;
}
if (foundlen) break;
i++;
}
if (foundlen) {
Speed = i;
Duration[5] = Duration_1_32; Duration[4] = Duration_1_16;
Duration[3] = Duration_1_8; Duration[2] = Duration_1_4;
Duration[1] = Duration_1_2; Duration[0] = Duration_Full;
for (i=0;i<6;i++) Duration[i] = Duration[i];
for (i=0;i<6;i++) Duration[i+6] = Duration[i];
for (i=0;i<6;i++) Duration[i+12] = Duration[i];
for (i=0;i<6;i++) Duration[i+18] = Duration[i];
for (i=0;i<6;i++) DurationSpec[i] = NoSpecialDuration;
for (i=0;i<6;i++) DurationSpec[i+6] = DottedNote;
for (i=0;i<6;i++) DurationSpec[i+12] = DoubleDottedNote;
for (i=0;i<6;i++) DurationSpec[i+18] = Length_2_3;
for (i=0;i<NrNotes;i++) {
dest->NoteTone.Commands[i].Type = RING_Note;
Note = &dest->NoteTone.Commands[i].Note;
Note->Note = Notes[i];
Note->Tempo = Speed;
Note->Style = ContinuousStyle;
if (Notes[i] != Note_Pause) Note->Scale = NotesScale[i];
for (z=0;z<6*4;z++) {
if (NotesLen[i] - Lengths[z] > -accuracy &&
NotesLen[i] - Lengths[z] < accuracy) {
Note->Duration = Duration[z];
Note->DurationSpec = DurationSpec[z];
/* Trick from PPM Edit */
if (Note->DurationSpec == DoubleDottedNote) {
switch (Note->Duration) {
case Duration_Full:Note->Duration = Duration_Full;break;
case Duration_1_2 :Note->Duration = Duration_Full;break;
case Duration_1_4 :Note->Duration = Duration_1_2; break;
case Duration_1_8 :Note->Duration = Duration_1_4; break;
case Duration_1_16:Note->Duration = Duration_1_8; break;
case Duration_1_32:Note->Duration = Duration_1_16;break;
}
Note->DurationSpec = NoSpecialDuration;
}
/* Here happy creation */
if (Note->DurationSpec == Length_2_3) {
Note->DurationSpec = NoSpecialDuration;
}
break;
}
}
}
dest->NoteTone.NrCommands = NrNotes;
dbgprintf("speed = %i\n",Speed);
break;
}
}
if (!foundlen) dest->NoteTone.NrCommands = 0;
}
GSM_Error GSM_RingtoneConvert(GSM_Ringtone *dest, GSM_Ringtone *src, GSM_RingtoneFormat Format)
{
dest->Format = Format;
CopyUnicodeString(dest->Name,src->Name);
if (src->Format==RING_NOTETONE && Format==RING_NOKIABINARY) {
RTTL2Binary(dest, src);
return ERR_NONE;
}
if (src->Format==RING_NOKIABINARY && Format==RING_NOTETONE) {
Binary2RTTL(dest, src);
return ERR_NONE;
}
/* The same source and target format */
if (src->Format==Format) {
memcpy(dest,src,sizeof(GSM_Ringtone));
return ERR_NONE;
}
return ERR_NOTIMPLEMENTED;
}
/* 0 = No header and footer, 0.5 = partial header and footer,
* 1.0 = IMelody 1.0, 1.2 = IMelody 1.2 */
unsigned char GSM_EncodeEMSSound(GSM_Ringtone ringtone, unsigned char *package, int *maxlength, double version, bool start)
{
int i, NrNotes = 0, Len, Max = *maxlength;
GSM_RingNote *Note;
GSM_RingNoteScale DefNoteScale;
GSM_RingNoteStyle DefNoteStyle=0;
int DefNoteTempo=0;
bool started = false, end;
*maxlength = 0;
if (start) {
if (version != 0) *maxlength+=sprintf(package,"BEGIN:IMELODY%c%c",13,10);
if (version == 1.0) *maxlength+=sprintf(package+(*maxlength),"VERSION:1.0%c%c",13,10);
if (version == 1.2) *maxlength+=sprintf(package+(*maxlength),"VERSION:1.2%c%c",13,10);
if (version >= 1.0) *maxlength+=sprintf(package+(*maxlength),"FORMAT:CLASS1.0%c%c",13,10);
if (version == 1.2) *maxlength+=sprintf(package+(*maxlength),"NAME:%s%c%c",DecodeUnicodeString(ringtone.Name),13,10);
}
DefNoteScale = Scale_880; /* by iMelody definition */
for (i=0;i<ringtone.NoteTone.NrCommands;i++) {
Len = *maxlength;
if (ringtone.NoteTone.Commands[i].Type != RING_Note) continue;
Note = &ringtone.NoteTone.Commands[i].Note;
if (Note->Note == Note_Pause) continue;
if (version == 1.2 && start) {
/* Save the default tempo */
DefNoteTempo = Note->Tempo;
Len+=sprintf(package+Len,"BEAT:%i%c%c",DefNoteTempo,13,10);
dbgprintf("DefNoteTempo=%d\n",DefNoteTempo);
/* Save default style */
DefNoteStyle = Note->Style;
switch (DefNoteStyle) {
case NaturalStyle :Len+=sprintf(package+Len,"STYLE:S0%c%c",13,10); break;
case ContinuousStyle:Len+=sprintf(package+Len,"STYLE:S1%c%c",13,10); break;
case StaccatoStyle :Len+=sprintf(package+Len,"STYLE:S2%c%c",13,10); break;
}
}
Len+=sprintf(package+Len,"MELODY:");
if (version != 0) {
/* 15 = Len of END:IMELODY... */
if ((Len+15) > Max) { end = true; break; }
} else {
if (Len > Max) { end = true; break; }
}
*maxlength = Len;
break;
}
for (i=0;i<ringtone.NoteTone.NrCommands;i++) {
end = false;
Len = *maxlength;
switch (ringtone.NoteTone.Commands[i].Type) {
case RING_Note:
Note = &ringtone.NoteTone.Commands[i].Note;
if (!started && Note->Note != Note_Pause) started = true;
if (!started) break;
if (Note->Note!=Note_Pause && Note->Scale != DefNoteScale) {
Len+=sprintf(package+Len,"*%i",Note->Scale-1);
}
switch (Note->Note) {
case Note_C :Len+=sprintf(package+Len,"c"); break;
case Note_Cis :Len+=sprintf(package+Len,"#c");break;
case Note_D :Len+=sprintf(package+Len,"d"); break;
case Note_Dis :Len+=sprintf(package+Len,"#d");break;
case Note_E :Len+=sprintf(package+Len,"e"); break;
case Note_F :Len+=sprintf(package+Len,"f"); break;
case Note_Fis :Len+=sprintf(package+Len,"#f");break;
case Note_G :Len+=sprintf(package+Len,"g"); break;
case Note_Gis :Len+=sprintf(package+Len,"#g");break;
case Note_A :Len+=sprintf(package+Len,"a"); break;
case Note_Ais :Len+=sprintf(package+Len,"#a");break;
case Note_H :Len+=sprintf(package+Len,"b"); break;
case Note_Pause :Len+=sprintf(package+Len,"r"); break;
}
switch (Note->Duration) {
case Duration_Full : package[Len++]='0'; break;
case Duration_1_2 : package[Len++]='1'; break;
case Duration_1_4 : package[Len++]='2'; break;
case Duration_1_8 : package[Len++]='3'; break;
case Duration_1_16 : package[Len++]='4'; break;
case Duration_1_32 : package[Len++]='5'; break;
default : break;
}
switch (Note->DurationSpec) {
case DottedNote : package[Len++] = '.'; break;
case DoubleDottedNote : package[Len++] = ':'; break;
case Length_2_3 : package[Len++] = ';'; break;
default : break;
}
if (version != 0) {
/* 15 = Len of END:IMELODY... */
if ((Len+15) > Max) { end = true; break; }
} else {
if (Len > Max) { end = true; break; }
}
*maxlength = Len;
break;
case RING_DisableLED:
if ((Len + 6) > Max) { end = true; break; }
(*maxlength)+=sprintf(package+Len,"ledoff");
break;
case RING_EnableLED:
if ((Len + 5) > Max) { end = true; break; }
(*maxlength)+=sprintf(package+Len,"ledon");
break;
case RING_DisableVibra:
if ((Len + 7) > Max) { end = true; break; }
(*maxlength)+=sprintf(package+Len,"vibeoff");
break;
case RING_EnableVibra:
if ((Len + 6) > Max) { end = true; break; }
(*maxlength)+=sprintf(package+Len,"vibeon");
break;
case RING_DisableLight:
if ((Len + 7) > Max) { end = true; break; }
(*maxlength)+=sprintf(package+Len,"backoff");
break;
case RING_EnableLight:
if ((Len + 6) > Max) { end = true; break; }
(*maxlength)+=sprintf(package+Len,"backon");
break;
default:
break;
}
if (end) break;
NrNotes ++;
}
if (version != 0) *maxlength+=sprintf(package+(*maxlength),"%c%cEND:IMELODY%c%c",13,10,13,10);
return NrNotes;
}
char *GSM_GetRingtoneName(GSM_AllRingtonesInfo *Info, int ID)
{
int i;
static char ala[2];
for (i=0;i<Info->Number;i++) {
if (Info->Ringtone[i].ID == ID) return Info->Ringtone[i].Name;
}
ala[0] = 0;
ala[1] = 0;
return ala;
}
/* How should editor hadle tabs in this file? Add editor commands here.
* vim: noexpandtab sw=8 ts=8 sts=8:
*/