#if 0
gcc ${CFLAGS:--s -O2} -c -Wno-unused-result sound.c `sdl-config --cflags`
exit
#endif
#include "SDL.h"
#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "sqlite3.h"
#include "smallxrm.h"
#include "quarks.h"
#include "heromesh.h"
#include "cursorshapes.h"
typedef struct {
Uint8*data;
Uint32 len; // length in bytes
} WaveSound;
static Uint8 sound_on;
static Sint16 mmlvolume=9001;
static SDL_AudioSpec spec;
static WaveSound*standardsounds;
static Uint16 nstandardsounds;
static WaveSound*usersounds;
static Uint16 nusersounds;
static Uint8**user_sound_names;
static FILE*l_fp;
static long l_offset,l_size;
static float wavevolume=1.0;
static Uint8 needs_amplify=0;
static Uint32*mmltuning;
static Uint32 mmltempo;
static Uint8*volatile wavesound;
static volatile Uint32 wavelen;
static volatile Uint8 mmlsound[512];
static volatile Uint16 mmlpos;
static volatile Uint32 mmltime;
static void audio_callback(void*userdata,Uint8*stream,int len) {
static Uint32 phase;
if(wavesound) {
if(wavelen<=len) {
memcpy(stream,wavesound,wavelen);
memset(stream+wavelen,0,len-wavelen);
wavesound=0;
wavelen=0;
} else {
memcpy(stream,wavesound,len);
wavesound+=len;
wavelen-=len;
}
} else if(mmlpos) {
Uint16*out=(Uint16*)stream;
Uint32 t=mmltime;
int re=len>>1;
int m=mmlpos;
int n=mmlsound[m-1];
memset(stream,0,len);
while(re) {
if(n!=255) {
phase+=mmltuning[n];
if(t>1) *out=phase&0x80000000U?-mmlvolume:mmlvolume;
}
if(!--t) {
m+=2;
if(m>=512) {
m=0;
break;
}
n=mmlsound[m-1];
t=mmltempo*mmlsound[m];
if(!t) {
m=0;
break;
}
}
out++; re--;
}
mmlpos=m;
mmltime=t;
} else {
memset(stream,0,len);
}
}
static int my_seek(SDL_RWops*cxt,int o,int w) {
switch(w) {
case RW_SEEK_SET: fseek(l_fp,l_offset+o,SEEK_SET); break;
case RW_SEEK_CUR: fseek(l_fp,o,SEEK_CUR); break;
case RW_SEEK_END: fseek(l_fp,l_offset+l_size+o,SEEK_SET); break;
}
return ftell(l_fp)-l_offset;
}
static int my_read(SDL_RWops*cxt,void*ptr,int size,int maxnum) {
if(size*maxnum+l_offset>ftell(l_fp)+l_size) maxnum=(ftell(l_fp)-l_offset)/size;
return fread(ptr,size,maxnum,l_fp);
}
static int my_close(SDL_RWops*cxt) {
return 0;
}
static SDL_RWops my_rwops={
.seek=my_seek,
.read=my_read,
.close=my_close,
};
static void amplify_wave_sound(const WaveSound*ws) {
Uint32 n;
Sint16*b=(Sint16*)ws->data;
Uint32 m=ws->len/sizeof(Sint16);
if(!needs_amplify || !b) return;
for(n=0;n<m;n++) b[n]*=wavevolume;
}
static void load_sound(FILE*fp,long offset,long size,WaveSound*ws) {
SDL_AudioSpec src;
SDL_AudioCVT cvt;
Uint32 len=0;
Uint8*buf=0;
ws->data=0;
ws->len=0;
l_fp=fp;
l_offset=offset;
l_size=size;
if(!SDL_LoadWAV_RW(&my_rwops,0,&src,&buf,&len)) {
if(main_options['v']) fprintf(stderr,"[Cannot load wave audio at %ld (%ld bytes): %s]\n",offset,size,SDL_GetError());
return;
}
memset(&cvt,0,sizeof(SDL_AudioCVT));
if(SDL_BuildAudioCVT(&cvt,src.format,src.channels,src.freq,spec.format,spec.channels,spec.freq)<0) goto fail;
cvt.buf=malloc(len*cvt.len_mult);
cvt.len=len;
if(!cvt.buf) goto fail;
memcpy(cvt.buf,buf,len);
if(SDL_ConvertAudio(&cvt)) goto fail;
SDL_FreeWAV(buf);
ws->data=cvt.buf;
ws->len=cvt.len_cvt;
amplify_wave_sound(ws);
return;
fail:
if(main_options['v']) fprintf(stderr,"[Failed to convert wave audio at %ld (%ld bytes)]\n",offset,size);
SDL_FreeWAV(buf);
}
static void load_sound_set(int is_user) {
const char*v;
char*nam;
FILE*fp;
Uint32 i,j;
WaveSound*ws;
if(is_user) {
if(main_options['z']) {
fp=composite_slice(".xclass",0);
} else {
nam=sqlite3_mprintf("%s.xclass",basefilename);
if(!nam) return;
fp=fopen(nam,"r");
sqlite3_free(nam);
}
if(!fp) return;
} else {
optionquery[2]=Q_standardSounds;
v=xrm_get_resource(resourcedb,optionquery,optionquery,3);
if(!v) return;
fp=fopen(v,"r");
if(!fp) fatal("Cannot open standard sounds file (%m)\n");
nstandardsounds=50;
standardsounds=malloc(nstandardsounds*sizeof(WaveSound));
if(!standardsounds) fatal("Allocation failed\n");
for(i=0;i<nstandardsounds;i++) standardsounds[i].data=0,standardsounds[i].len=0;
}
nam=malloc(256);
for(;;) {
for(i=0;;) {
if(i==255) goto done;
nam[i++]=j=fgetc(fp);
if(j==(Uint32)EOF) goto done;
if(!j) break;
}
i--;
j=fgetc(fp)<<16; j|=fgetc(fp)<<24; j|=fgetc(fp)<<0; j|=fgetc(fp)<<8;
l_offset=ftell(fp); l_size=j;
if(i>4 && nam[i-4]=='.' && nam[i-3]=='W' && nam[i-1]=='V' && (nam[i-2]=='A' || nam[i-2]=='Z')) {
j=nam[i-2];
nam[i-4]=0;
if(is_user) {
if(nusersounds>0x03FD) goto done;
i=nusersounds++;
usersounds=realloc(usersounds,nusersounds*sizeof(WaveSound));
user_sound_names=realloc(user_sound_names,nusersounds*sizeof(Uint8*));
if(!usersounds || !user_sound_names) fatal("Allocation failed\n");
user_sound_names[i]=strdup(nam);
if(!user_sound_names[i]) fatal("Allocation failed\n");
ws=usersounds+i;
ws->data=0;
ws->len=0;
} else {
//TODO: Implement standard sounds.
}
if(j=='A') {
load_sound(fp,l_offset,l_size,ws);
} else {
//TODO: Compressed sounds.
}
}
fseek(fp,l_offset+l_size,SEEK_SET);
}
done:
fclose(fp);
free(nam);
}
void init_sound(void) {
const char*v;
double f;
int i;
optionquery[1]=Q_audio;
optionquery[2]=Q_rate;
v=xrm_get_resource(resourcedb,optionquery,optionquery,3);
if(!v) return;
spec.freq=strtol(v,0,10);
optionquery[2]=Q_buffer;
v=xrm_get_resource(resourcedb,optionquery,optionquery,3);
if(!v) return;
spec.samples=strtol(v,0,10);
if(!spec.freq || !spec.samples) return;
fprintf(stderr,"Initializing audio...\n");
spec.channels=1;
spec.format=AUDIO_S16SYS;
spec.callback=audio_callback;
if(SDL_InitSubSystem(SDL_INIT_AUDIO)) {
fprintf(stderr,"Cannot initalize audio subsystem.\n");
return;
}
if(SDL_OpenAudio(&spec,0)) {
fprintf(stderr,"Cannot open audio device.\n");
return;
}
optionquery[2]=Q_waveVolume;
if(v=xrm_get_resource(resourcedb,optionquery,optionquery,3)) {
needs_amplify=1;
wavevolume=strtod(v,0);
}
optionquery[2]=Q_mmlVolume;
if(v=xrm_get_resource(resourcedb,optionquery,optionquery,3)) mmlvolume=fmin(strtod(v,0)*32767.0,32767.0);
if(wavevolume>0.00001) {
//load_sound_set(0); // Standard sounds
load_sound_set(1); // User sounds
}
if(mmlvolume) {
mmltuning=malloc(256*sizeof(Uint32));
if(!mmltuning) fatal("Allocation failed\n");
optionquery[2]=Q_mmlTuning;
if(v=xrm_get_resource(resourcedb,optionquery,optionquery,3)) f=strtod(v,0); else f=440.0;
f*=0x80000000U/(double)spec.freq;
for(i=0;i<256;i++) mmltuning[i]=f*pow(2.0,(i-96)/24.0);
optionquery[2]=Q_mmlTempo;
if(v=xrm_get_resource(resourcedb,optionquery,optionquery,3)) i=strtol(v,0,10); else i=120;
// Convert quarter notes per minute to samples per sixty-fourth note
mmltempo=(spec.freq*60)/(i*16);
}
fprintf(stderr,"Done.\n");
wavesound=0;
mmlpos=0;
SDL_PauseAudio(0);
sound_on=1;
}
static void set_mml(const unsigned char*s) {
const Sint8 y[8]={2,0,4,-18,-14,-10,-8,-4};
int m=0;
int o=96;
int t=2;
int n;
while(*s && m<512) {
switch(*s++) {
case '0' ... '8': o=24*(s[-1]-'0'); break;
case '-': if(o) o-=24; break;
case '+': o+=24; break;
case '.': t+=t/2; break;
case 'A' ... 'G': case 'a' ... 'g':
n=o+y[s[-1]&7];
while(*s) switch(*s) {
case '!': n-=2; s++; break;
case '#': n+=2; s++; break;
case ',': n-=1; s++; break;
case '\'': n+=1; s++; break;
default: goto send;
}
goto send;
case 'H': case 'h': t=32; break;
case 'I': case 'i': t=8; break;
case 'L': case 'l':
t=0;
while(*s>='0' && *s<='9') t=10*t+*s++-'0';
break;
case 'N': case 'n':
n=0;
while(*s>='0' && *s<='9') n=10*n+*s++-'0';
send:
mmlsound[m++]=n; mmlsound[m++]=t;
break;
case 'Q': case 'q': t=16; break;
case 'S': case 's': t=4; break;
case 'T': case 't': t=2; break;
case 'W': case 'w': t=64; break;
case 'X': case 'x': mmlsound[m++]=255; mmlsound[m++]=t; break;
case 'Z': case 'z': t=1; break;
}
}
if(!m) return;
if(m<511) mmlsound[m+1]=0;
mmlpos=1;
mmltime=mmlsound[1]*mmltempo;
}
void set_sound_effect(Value v1,Value v2) {
static const unsigned char*const builtin[4]={
"s.g",
"scdefgab+c-bagfedc-c",
"i1c+c+c+c+c+c+c",
"-cc'c#d,dd'd#ee'ff'f#",
};
const unsigned char*s;
if(!sound_on) return;
if(!v2.t && !v2.u && (mmlpos || wavesound)) return;
SDL_LockAudio();
wavesound=0;
mmlpos=0;
switch(v1.t) {
case TY_SOUND:
if(v1.u<nstandardsounds) {
wavesound=standardsounds[v1.u].data;
wavelen=standardsounds[v1.u].len;
}
break;
case TY_USOUND:
if(v1.u<nusersounds) {
wavesound=usersounds[v1.u].data;
wavelen=usersounds[v1.u].len;
}
break;
case TY_STRING: case TY_LEVELSTRING:
if(!mmlvolume) break;
if(s=value_string_ptr(v1)) set_mml(s);
break;
case TY_FOR:
// (only used for the sound test)
if(!mmlvolume) break;
set_mml(builtin[v1.u&3]);
break;
}
SDL_UnlockAudio();
}
Uint16 find_user_sound(const char*name) {
int i;
for(i=0;i<nusersounds;i++) if(!strcmp(name,user_sound_names[i])) return i+0x0400;
return 0x03FF;
}
void set_sound_on(int on) {
if(!sound_on) return;
set_sound_effect(NVALUE(0),NVALUE(1));
SDL_PauseAudio(!on);
}
void sound_test(void) {
Uint8 columns;
SDL_Event ev;
SDL_Rect r;
int scroll=0;
int nitems;
int scrmax;
int i,j,k,x,y;
Value v;
char buf[256];
if(main_options['T'] && main_options['v']) {
if(mmltuning) printf("mmltempo=%d; mmlvolume=%d; mmltuning[96]=%d\n",(int)mmltempo,(int)mmlvolume,(int)mmltuning[96]);
for(i=0;i<nusersounds;i++) printf("%d: %s (ptr=%p, len=%d bytes)\n",i,user_sound_names[i],usersounds[i].data,usersounds[i].len);
fflush(stdout);
}
if(!screen) return;
nitems=nusersounds+4;
columns=(screen->w-16)/240?:1;
scrmax=(nitems+columns-1)/columns;
set_cursor(XC_arrow);
redraw:
SDL_FillRect(screen,0,0x02);
r.x=r.y=0;
r.w=screen->w;
r.h=8;
SDL_FillRect(screen,&r,0xF7);
SDL_LockSurface(screen);
draw_text(0,0," <F1> Mute <F2> Stop <F3> Status <ESC> Cancel",0xF7,0xF0);
if(SDL_GetAudioStatus()==SDL_AUDIO_PLAYING) draw_text(0,0,"\x0E",0xF7,0xF1);
for(i=scroll*columns,x=0,y=8;i<nitems;i++) {
if(y>screen->h-24) break;
if(i<nstandardsounds) {
k=0xF9;
snprintf(buf,29,"0"); //TODO
} else if(i<nstandardsounds+nusersounds) {
k=0xFA;
snprintf(buf,29,"%s",user_sound_names[i-nstandardsounds]);
} else {
k=0xFB;
snprintf(buf,29,"TEST %d",i-nstandardsounds-nusersounds);
}
r.x=x*240+20; r.y=y+4;
r.w=232; r.h=16;
SDL_FillRect(screen,&r,k);
draw_text(r.x+4,r.y+4,buf,k,0xF0);
if(++x==columns) x=0,y+=24;
}
SDL_UnlockSurface(screen);
r.x=r.w=0; r.y=8; r.h=screen->h-8;
scrollbar(&scroll,screen->h/8-1,scrmax,0,&r);
SDL_Flip(screen);
while(SDL_WaitEvent(&ev)) {
if(ev.type!=SDL_VIDEOEXPOSE && scrollbar(&scroll,screen->h/8-1,scrmax,&ev,&r)) goto redraw;
switch(ev.type) {
case SDL_MOUSEMOTION:
x=ev.button.x-16; y=ev.button.y-8;
if(x<0 || y<0) goto arrow;
i=x/240+columns*(y/24); x%=240; y%=24;
if(x<4 || x>236 || y<4 || y>20 || i<0 || i>=nitems) goto arrow;
set_cursor(XC_hand1);
break;
arrow: set_cursor(XC_arrow);
break;
case SDL_MOUSEBUTTONDOWN:
x=ev.button.x-16; y=ev.button.y-8;
if(x<0 || y<0) break;
i=x/240+columns*(y/24); x%=240; y%=24;
if(x<4 || x>236 || y<4 || y>20 || i<0 || i>=nitems) break;
if(i<nstandardsounds) {
v.t=TY_SOUND;
v.u=i;
} else if(i<nstandardsounds+nusersounds) {
v.t=TY_USOUND;
v.u=i-nstandardsounds;
} else {
v.t=TY_FOR;
v.u=i-nstandardsounds-nusersounds;
}
set_sound_effect(v,NVALUE(ev.button.button-1));
break;
case SDL_KEYDOWN:
switch(ev.key.keysym.sym) {
case SDLK_ESCAPE: return;
case SDLK_F1: set_sound_on(SDL_GetAudioStatus()==SDL_AUDIO_PAUSED); goto redraw;
case SDLK_F2: set_sound_effect(NVALUE(0),NVALUE(1)); break;
case SDLK_F3:
snprintf(buf,255,"Sample rate: %d Hz\nBuffer size: %d samples (%d bytes)\nStatus: %d\nWave queue: %d bytes\nMML position: %d"
,(int)spec.freq,(int)spec.samples,(int)spec.size,(int)SDL_GetAudioStatus(),(int)wavelen,(int)mmlpos);
modal_draw_popup(buf);
goto redraw;
case SDLK_HOME: case SDLK_KP7: scroll=0; goto redraw;
}
break;
case SDL_VIDEOEXPOSE: goto redraw;
case SDL_QUIT: SDL_PushEvent(&ev); return;
}
}
}