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spu: rework irqs, again..
[pcsx_rearmed.git] / plugins / dfsound / registers.c
CommitLineData
ef79bbde
P		 1/***************************************************************************\r
2 registers.c - description\r
3 -------------------\r
4 begin : Wed May 15 2002\r
5 copyright : (C) 2002 by Pete Bernert\r
6 email : BlackDove@addcom.de\r
7 ***************************************************************************/\r
8/***************************************************************************\r
9 * *\r
10 * This program is free software; you can redistribute it and/or modify *\r
11 * it under the terms of the GNU General Public License as published by *\r
12 * the Free Software Foundation; either version 2 of the License, or *\r
13 * (at your option) any later version. See also the license.txt file for *\r
14 * additional informations. *\r
15 * *\r
16 ***************************************************************************/\r
17\r
18#include "stdafx.h"\r
19\r
20#define _IN_REGISTERS\r
21\r
22#include "externals.h"\r
23#include "registers.h"\r
ef79bbde
P		 24\r
25/*\r
26// adsr time values (in ms) by James Higgs ... see the end of\r
27// the adsr.c source for details\r
28\r
29#define ATTACK_MS 514L\r
30#define DECAYHALF_MS 292L\r
31#define DECAY_MS 584L\r
32#define SUSTAIN_MS 450L\r
33#define RELEASE_MS 446L\r
34*/\r
35\r
36// we have a timebase of 1.020408f ms, not 1 ms... so adjust adsr defines\r
37#define ATTACK_MS 494L\r
38#define DECAYHALF_MS 286L\r
39#define DECAY_MS 572L\r
40#define SUSTAIN_MS 441L\r
41#define RELEASE_MS 437L\r
42\r
7e44d49d 43static void SoundOn(int start,int end,unsigned short val);\r
44static void SoundOff(int start,int end,unsigned short val);\r
45static void FModOn(int start,int end,unsigned short val);\r
46static void NoiseOn(int start,int end,unsigned short val);\r
47static void SetVolumeL(unsigned char ch,short vol);\r
48static void SetVolumeR(unsigned char ch,short vol);\r
49static void SetPitch(int ch,unsigned short val);\r
50static void ReverbOn(int start,int end,unsigned short val);\r
51\r
ef79bbde
P		 52////////////////////////////////////////////////////////////////////////\r
53// WRITE REGISTERS: called by main emu\r
54////////////////////////////////////////////////////////////////////////\r
55\r
56void CALLBACK SPUwriteRegister(unsigned long reg, unsigned short val)\r
57{\r
58 const unsigned long r=reg&0xfff;\r
59 regArea[(r-0xc00)>>1] = val;\r
60\r
61 if(r>=0x0c00 && r<0x0d80) // some channel info?\r
62 {\r
63 int ch=(r>>4)-0xc0; // calc channel\r
64 switch(r&0x0f)\r
65 {\r
66 //------------------------------------------------// r volume\r
67 case 0: \r
68 SetVolumeL((unsigned char)ch,val);\r
69 break;\r
70 //------------------------------------------------// l volume\r
71 case 2: \r
72 SetVolumeR((unsigned char)ch,val);\r
73 break;\r
74 //------------------------------------------------// pitch\r
75 case 4: \r
76 SetPitch(ch,val);\r
77 break;\r
78 //------------------------------------------------// start\r
79 case 6: \r
7e44d49d 80 // taken from regArea later\r
ef79bbde
P		 81 break;\r
82 //------------------------------------------------// level with pre-calcs\r
83 case 8:\r
84 {\r
6d866bb7 85 const unsigned long lval=val;\r
ef79bbde
P		 86 //---------------------------------------------//\r
87 s_chan[ch].ADSRX.AttackModeExp=(lval&0x8000)?1:0; \r
88 s_chan[ch].ADSRX.AttackRate=(lval>>8) & 0x007f;\r
89 s_chan[ch].ADSRX.DecayRate=(lval>>4) & 0x000f;\r
90 s_chan[ch].ADSRX.SustainLevel=lval & 0x000f;\r
91 //---------------------------------------------//\r
6d866bb7 92#if 0\r
ef79bbde
P		 93 if(!iDebugMode) break;\r
94 //---------------------------------------------// stuff below is only for debug mode\r
95\r
96 s_chan[ch].ADSR.AttackModeExp=(lval&0x8000)?1:0; //0x007f\r
97\r
98 lx=(((lval>>8) & 0x007f)>>2); // attack time to run from 0 to 100% volume\r
99 lx=min(31,lx); // no overflow on shift!\r
100 if(lx) \r
101 { \r
102 lx = (1<<lx);\r
103 if(lx<2147483) lx=(lx*ATTACK_MS)/10000L; // another overflow check\r
104 else lx=(lx/10000L)*ATTACK_MS;\r
105 if(!lx) lx=1;\r
106 }\r
107 s_chan[ch].ADSR.AttackTime=lx; \r
108\r
109 s_chan[ch].ADSR.SustainLevel= // our adsr vol runs from 0 to 1024, so scale the sustain level\r
110 (1024*((lval) & 0x000f))/15;\r
111\r
112 lx=(lval>>4) & 0x000f; // decay:\r
113 if(lx) // our const decay value is time it takes from 100% to 0% of volume\r
114 {\r
115 lx = ((1<<(lx))*DECAY_MS)/10000L;\r
116 if(!lx) lx=1;\r
117 }\r
118 s_chan[ch].ADSR.DecayTime = // so calc how long does it take to run from 100% to the wanted sus level\r
119 (lx*(1024-s_chan[ch].ADSR.SustainLevel))/1024;\r
6d866bb7 120#endif\r
ef79bbde
P		 121 }\r
122 break;\r
123 //------------------------------------------------// adsr times with pre-calcs\r
124 case 10:\r
125 {\r
6d866bb7 126 const unsigned long lval=val;\r
ef79bbde
P		 127\r
128 //----------------------------------------------//\r
129 s_chan[ch].ADSRX.SustainModeExp = (lval&0x8000)?1:0;\r
130 s_chan[ch].ADSRX.SustainIncrease= (lval&0x4000)?0:1;\r
131 s_chan[ch].ADSRX.SustainRate = (lval>>6) & 0x007f;\r
132 s_chan[ch].ADSRX.ReleaseModeExp = (lval&0x0020)?1:0;\r
133 s_chan[ch].ADSRX.ReleaseRate = lval & 0x001f;\r
134 //----------------------------------------------//\r
6d866bb7 135#if 0\r
ef79bbde
P		 136 if(!iDebugMode) break;\r
137 //----------------------------------------------// stuff below is only for debug mode\r
138\r
139 s_chan[ch].ADSR.SustainModeExp = (lval&0x8000)?1:0;\r
140 s_chan[ch].ADSR.ReleaseModeExp = (lval&0x0020)?1:0;\r
141 \r
142 lx=((((lval>>6) & 0x007f)>>2)); // sustain time... often very high\r
143 lx=min(31,lx); // values are used to hold the volume\r
144 if(lx) // until a sound stop occurs\r
145 { // the highest value we reach (due to \r
146 lx = (1<<lx); // overflow checking) is: \r
147 if(lx<2147483) lx=(lx*SUSTAIN_MS)/10000L; // 94704 seconds = 1578 minutes = 26 hours... \r
148 else lx=(lx/10000L)*SUSTAIN_MS; // should be enuff... if the stop doesn't \r
149 if(!lx) lx=1; // come in this time span, I don't care :)\r
150 }\r
151 s_chan[ch].ADSR.SustainTime = lx;\r
152\r
153 lx=(lval & 0x001f);\r
154 s_chan[ch].ADSR.ReleaseVal =lx;\r
155 if(lx) // release time from 100% to 0%\r
156 { // note: the release time will be\r
157 lx = (1<<lx); // adjusted when a stop is coming,\r
158 if(lx<2147483) lx=(lx*RELEASE_MS)/10000L; // so at this time the adsr vol will \r
159 else lx=(lx/10000L)*RELEASE_MS; // run from (current volume) to 0%\r
160 if(!lx) lx=1;\r
161 }\r
162 s_chan[ch].ADSR.ReleaseTime=lx;\r
163\r
164 if(lval & 0x4000) // add/dec flag\r
165 s_chan[ch].ADSR.SustainModeDec=-1;\r
166 else s_chan[ch].ADSR.SustainModeDec=1;\r
6d866bb7 167#endif\r
ef79bbde
P		 168 }\r
169 break;\r
170 //------------------------------------------------// adsr volume... mmm have to investigate this\r
171 case 12:\r
172 break;\r
173 //------------------------------------------------//\r
174 case 14: // loop?\r
7e44d49d 175 s_chan[ch].pLoop=spuMemC+((val&~1)<<3);\r
ef79bbde
P		 176 break;\r
177 //------------------------------------------------//\r
178 }\r
ef79bbde
P		 179 return;\r
180 }\r
181\r
182 switch(r)\r
183 {\r
184 //-------------------------------------------------//\r
185 case H_SPUaddr:\r
186 spuAddr = (unsigned long) val<<3;\r
187 break;\r
188 //-------------------------------------------------//\r
189 case H_SPUdata:\r
190 spuMem[spuAddr>>1] = val;\r
191 spuAddr+=2;\r
192 if(spuAddr>0x7ffff) spuAddr=0;\r
193 break;\r
194 //-------------------------------------------------//\r
195 case H_SPUctrl:\r
3fc2a4c2 196 if(!(spuCtrl & CTRL_IRQ))\r
197 spuStat&=~STAT_IRQ;\r
ef79bbde
P		 198 spuCtrl=val;\r
199 break;\r
200 //-------------------------------------------------//\r
201 case H_SPUstat:\r
202 spuStat=val & 0xf800;\r
203 break;\r
204 //-------------------------------------------------//\r
205 case H_SPUReverbAddr:\r
206 if(val==0xFFFF || val<=0x200)\r
207 {rvb.StartAddr=rvb.CurrAddr=0;}\r
208 else\r
209 {\r
210 const long iv=(unsigned long)val<<2;\r
211 if(rvb.StartAddr!=iv)\r
212 {\r
213 rvb.StartAddr=(unsigned long)val<<2;\r
214 rvb.CurrAddr=rvb.StartAddr;\r
b72f17a1 215 // sync-with-decode-buffers hack..\r
216 if(rvb.StartAddr==0x3ff00)\r
217 rvb.CurrAddr+=decode_pos/2;\r
ef79bbde
P		 218 }\r
219 }\r
1775933a 220 rvb.dirty = 1;\r
ef79bbde
P		 221 break;\r
222 //-------------------------------------------------//\r
223 case H_SPUirqAddr:\r
224 spuIrq = val;\r
3fc2a4c2 225 pSpuIrq=spuMemC+(((unsigned long) val<<3)&~0xf);\r
ef79bbde
P		 226 break;\r
227 //-------------------------------------------------//\r
228 case H_SPUrvolL:\r
229 rvb.VolLeft=val;\r
230 break;\r
231 //-------------------------------------------------//\r
232 case H_SPUrvolR:\r
233 rvb.VolRight=val;\r
234 break;\r
235 //-------------------------------------------------//\r
236\r
237/*\r
238 case H_ExtLeft:\r
239 //auxprintf("EL %d\n",val);\r
240 break;\r
241 //-------------------------------------------------//\r
242 case H_ExtRight:\r
243 //auxprintf("ER %d\n",val);\r
244 break;\r
245 //-------------------------------------------------//\r
246 case H_SPUmvolL:\r
247 //auxprintf("ML %d\n",val);\r
248 break;\r
249 //-------------------------------------------------//\r
250 case H_SPUmvolR:\r
251 //auxprintf("MR %d\n",val);\r
252 break;\r
253 //-------------------------------------------------//\r
254 case H_SPUMute1:\r
255 //auxprintf("M0 %04x\n",val);\r
256 break;\r
257 //-------------------------------------------------//\r
258 case H_SPUMute2:\r
259 //auxprintf("M1 %04x\n",val);\r
260 break;\r
261*/\r
262 //-------------------------------------------------//\r
263 case H_SPUon1:\r
264 SoundOn(0,16,val);\r
265 break;\r
266 //-------------------------------------------------//\r
267 case H_SPUon2:\r
268 SoundOn(16,24,val);\r
269 break;\r
270 //-------------------------------------------------//\r
271 case H_SPUoff1:\r
272 SoundOff(0,16,val);\r
273 break;\r
274 //-------------------------------------------------//\r
275 case H_SPUoff2:\r
276 SoundOff(16,24,val);\r
277 break;\r
278 //-------------------------------------------------//\r
279 case H_CDLeft:\r
280 iLeftXAVol=val & 0x7fff;\r
281 if(cddavCallback) cddavCallback(0,val);\r
282 break;\r
283 case H_CDRight:\r
284 iRightXAVol=val & 0x7fff;\r
285 if(cddavCallback) cddavCallback(1,val);\r
286 break;\r
287 //-------------------------------------------------//\r
288 case H_FMod1:\r
289 FModOn(0,16,val);\r
290 break;\r
291 //-------------------------------------------------//\r
292 case H_FMod2:\r
293 FModOn(16,24,val);\r
294 break;\r
295 //-------------------------------------------------//\r
296 case H_Noise1:\r
297 NoiseOn(0,16,val);\r
298 break;\r
299 //-------------------------------------------------//\r
300 case H_Noise2:\r
301 NoiseOn(16,24,val);\r
302 break;\r
303 //-------------------------------------------------//\r
304 case H_RVBon1:\r
305 ReverbOn(0,16,val);\r
306 break;\r
307 //-------------------------------------------------//\r
308 case H_RVBon2:\r
309 ReverbOn(16,24,val);\r
310 break;\r
311 //-------------------------------------------------//\r
1775933a 312 case H_Reverb+0 : rvb.FB_SRC_A=val*4; break;\r
313 case H_Reverb+2 : rvb.FB_SRC_B=val*4; break;\r
ef79bbde
P		 314 case H_Reverb+4 : rvb.IIR_ALPHA=(short)val; break;\r
315 case H_Reverb+6 : rvb.ACC_COEF_A=(short)val; break;\r
316 case H_Reverb+8 : rvb.ACC_COEF_B=(short)val; break;\r
317 case H_Reverb+10 : rvb.ACC_COEF_C=(short)val; break;\r
318 case H_Reverb+12 : rvb.ACC_COEF_D=(short)val; break;\r
319 case H_Reverb+14 : rvb.IIR_COEF=(short)val; break;\r
320 case H_Reverb+16 : rvb.FB_ALPHA=(short)val; break;\r
321 case H_Reverb+18 : rvb.FB_X=(short)val; break;\r
1775933a 322 case H_Reverb+20 : rvb.IIR_DEST_A0=val*4; break;\r
323 case H_Reverb+22 : rvb.IIR_DEST_A1=val*4; break;\r
324 case H_Reverb+24 : rvb.ACC_SRC_A0=val*4; break;\r
325 case H_Reverb+26 : rvb.ACC_SRC_A1=val*4; break;\r
326 case H_Reverb+28 : rvb.ACC_SRC_B0=val*4; break;\r
327 case H_Reverb+30 : rvb.ACC_SRC_B1=val*4; break;\r
328 case H_Reverb+32 : rvb.IIR_SRC_A0=val*4; break;\r
329 case H_Reverb+34 : rvb.IIR_SRC_A1=val*4; break;\r
330 case H_Reverb+36 : rvb.IIR_DEST_B0=val*4; break;\r
331 case H_Reverb+38 : rvb.IIR_DEST_B1=val*4; break;\r
332 case H_Reverb+40 : rvb.ACC_SRC_C0=val*4; break;\r
333 case H_Reverb+42 : rvb.ACC_SRC_C1=val*4; break;\r
334 case H_Reverb+44 : rvb.ACC_SRC_D0=val*4; break;\r
335 case H_Reverb+46 : rvb.ACC_SRC_D1=val*4; break;\r
336 case H_Reverb+48 : rvb.IIR_SRC_B1=val*4; break;\r
337 case H_Reverb+50 : rvb.IIR_SRC_B0=val*4; break;\r
338 case H_Reverb+52 : rvb.MIX_DEST_A0=val*4; break;\r
339 case H_Reverb+54 : rvb.MIX_DEST_A1=val*4; break;\r
340 case H_Reverb+56 : rvb.MIX_DEST_B0=val*4; break;\r
341 case H_Reverb+58 : rvb.MIX_DEST_B1=val*4; break;\r
ef79bbde
P		 342 case H_Reverb+60 : rvb.IN_COEF_L=(short)val; break;\r
343 case H_Reverb+62 : rvb.IN_COEF_R=(short)val; break;\r
344 }\r
345\r
1775933a 346 if ((r & ~0x3f) == H_Reverb)\r
347 rvb.dirty = 1; // recalculate on next update\r
ef79bbde
P		 348}\r
349\r
350////////////////////////////////////////////////////////////////////////\r
351// READ REGISTER: called by main emu\r
352////////////////////////////////////////////////////////////////////////\r
353\r
354unsigned short CALLBACK SPUreadRegister(unsigned long reg)\r
355{\r
356 const unsigned long r=reg&0xfff;\r
357 \r
ef79bbde
P		 358 if(r>=0x0c00 && r<0x0d80)\r
359 {\r
360 switch(r&0x0f)\r
361 {\r
362 case 12: // get adsr vol\r
363 {\r
364 const int ch=(r>>4)-0xc0;\r
6d866bb7 365 if(dwNewChannel&(1<<ch)) return 1; // we are started, but not processed? return 1\r
366 if((dwChannelOn&(1<<ch)) && // same here... we haven't decoded one sample yet, so no envelope yet. return 1 as well\r
367 !s_chan[ch].ADSRX.EnvelopeVol)\r
ef79bbde
P		 368 return 1;\r
369 return (unsigned short)(s_chan[ch].ADSRX.EnvelopeVol>>16);\r
370 }\r
371\r
372 case 14: // get loop address\r
373 {\r
374 const int ch=(r>>4)-0xc0;\r
ef79bbde
P		 375 return (unsigned short)((s_chan[ch].pLoop-spuMemC)>>3);\r
376 }\r
377 }\r
378 }\r
379\r
380 switch(r)\r
381 {\r
382 case H_SPUctrl:\r
383 return spuCtrl;\r
384\r
385 case H_SPUstat:\r
386 return spuStat;\r
387 \r
388 case H_SPUaddr:\r
389 return (unsigned short)(spuAddr>>3);\r
390\r
391 case H_SPUdata:\r
392 {\r
393 unsigned short s=spuMem[spuAddr>>1];\r
394 spuAddr+=2;\r
395 if(spuAddr>0x7ffff) spuAddr=0;\r
396 return s;\r
397 }\r
398\r
399 case H_SPUirqAddr:\r
400 return spuIrq;\r
401\r
402 //case H_SPUIsOn1:\r
403 // return IsSoundOn(0,16);\r
404\r
405 //case H_SPUIsOn2:\r
406 // return IsSoundOn(16,24);\r
407 \r
408 }\r
409\r
410 return regArea[(r-0xc00)>>1];\r
411}\r
412 \r
413////////////////////////////////////////////////////////////////////////\r
414// SOUND ON register write\r
415////////////////////////////////////////////////////////////////////////\r
416\r
7e44d49d 417static void SoundOn(int start,int end,unsigned short val)\r
ef79bbde
P		 418{\r
419 int ch;\r
420\r
421 for(ch=start;ch<end;ch++,val>>=1) // loop channels\r
422 {\r
77d6fd63 423 if((val&1) && regAreaGet(ch,6)) // mmm... start has to be set before key on !?!\r
ef79bbde 424 {\r
b00afb77 425 // do this here, not in StartSound\r
426 // - fixes fussy timing issues\r
427 s_chan[ch].bStop=0;\r
77d6fd63 428 s_chan[ch].pCurr=spuMemC+((regAreaGet(ch,6)&~1)<<3); // must be block aligned\r
429 s_chan[ch].pLoop=spuMemC+((regAreaGet(ch,14)&~1)<<3);\r
e4f075af 430 s_chan[ch].prevflags=2;\r
b00afb77 431\r
ef79bbde 432 dwNewChannel|=(1<<ch); // bitfield for faster testing\r
6d866bb7 433 dwChannelOn|=1<<ch;\r
174c454a 434 dwChannelDead&=~(1<<ch);\r
ef79bbde
P		 435 }\r
436 }\r
437}\r
438\r
439////////////////////////////////////////////////////////////////////////\r
440// SOUND OFF register write\r
441////////////////////////////////////////////////////////////////////////\r
442\r
7e44d49d 443static void SoundOff(int start,int end,unsigned short val)\r
ef79bbde
P		 444{\r
445 int ch;\r
446 for(ch=start;ch<end;ch++,val>>=1) // loop channels\r
447 {\r
448 if(val&1) // && s_chan[i].bOn) mmm...\r
449 {\r
450 s_chan[ch].bStop=1;\r
b00afb77 451\r
452 // Jungle Book - Rhythm 'n Groove\r
453 // - turns off buzzing sound (loop hangs)\r
b00afb77 454 dwNewChannel &= ~(1<<ch);\r
ef79bbde
P		 455 } \r
456 }\r
457}\r
458\r
459////////////////////////////////////////////////////////////////////////\r
460// FMOD register write\r
461////////////////////////////////////////////////////////////////////////\r
462\r
7e44d49d 463static void FModOn(int start,int end,unsigned short val)\r
ef79bbde
P		 464{\r
465 int ch;\r
466\r
467 for(ch=start;ch<end;ch++,val>>=1) // loop channels\r
468 {\r
469 if(val&1) // -> fmod on/off\r
470 {\r
471 if(ch>0) \r
472 {\r
473 s_chan[ch].bFMod=1; // --> sound channel\r
474 s_chan[ch-1].bFMod=2; // --> freq channel\r
475 }\r
476 }\r
477 else\r
478 {\r
479 s_chan[ch].bFMod=0; // --> turn off fmod\r
07a6dd2c 480 if(ch>0&&s_chan[ch-1].bFMod==2)\r
481 s_chan[ch-1].bFMod=0;\r
ef79bbde
P		 482 }\r
483 }\r
484}\r
485\r
486////////////////////////////////////////////////////////////////////////\r
487// NOISE register write\r
488////////////////////////////////////////////////////////////////////////\r
489\r
7e44d49d 490static void NoiseOn(int start,int end,unsigned short val)\r
ef79bbde
P		 491{\r
492 int ch;\r
493\r
494 for(ch=start;ch<end;ch++,val>>=1) // loop channels\r
495 {\r
6d866bb7 496 s_chan[ch].bNoise=val&1; // -> noise on/off\r
ef79bbde
P		 497 }\r
498}\r
499\r
500////////////////////////////////////////////////////////////////////////\r
501// LEFT VOLUME register write\r
502////////////////////////////////////////////////////////////////////////\r
503\r
504// please note: sweep and phase invert are wrong... but I've never seen\r
505// them used\r
506\r
7e44d49d 507static void SetVolumeL(unsigned char ch,short vol) // LEFT VOLUME\r
ef79bbde 508{\r
ef79bbde
P		 509 if(vol&0x8000) // sweep?\r
510 {\r
511 short sInc=1; // -> sweep up?\r
512 if(vol&0x2000) sInc=-1; // -> or down?\r
513 if(vol&0x1000) vol^=0xffff; // -> mmm... phase inverted? have to investigate this\r
514 vol=((vol&0x7f)+1)/2; // -> sweep: 0..127 -> 0..64\r
515 vol+=vol/(2*sInc); // -> HACK: we don't sweep right now, so we just raise/lower the volume by the half!\r
516 vol*=128;\r
517 }\r
518 else // no sweep:\r
519 {\r
520 if(vol&0x4000) // -> mmm... phase inverted? have to investigate this\r
521 //vol^=0xffff;\r
522 vol=0x3fff-(vol&0x3fff);\r
523 }\r
524\r
525 vol&=0x3fff;\r
526 s_chan[ch].iLeftVolume=vol; // store volume\r
527}\r
528\r
529////////////////////////////////////////////////////////////////////////\r
530// RIGHT VOLUME register write\r
531////////////////////////////////////////////////////////////////////////\r
532\r
7e44d49d 533static void SetVolumeR(unsigned char ch,short vol) // RIGHT VOLUME\r
ef79bbde 534{\r
ef79bbde
P		 535 if(vol&0x8000) // comments... see above :)\r
536 {\r
537 short sInc=1;\r
538 if(vol&0x2000) sInc=-1;\r
539 if(vol&0x1000) vol^=0xffff;\r
540 vol=((vol&0x7f)+1)/2; \r
541 vol+=vol/(2*sInc);\r
542 vol*=128;\r
543 }\r
544 else \r
545 {\r
546 if(vol&0x4000) //vol=vol^=0xffff;\r
547 vol=0x3fff-(vol&0x3fff);\r
548 }\r
549\r
550 vol&=0x3fff;\r
551\r
552 s_chan[ch].iRightVolume=vol;\r
553}\r
554\r
555////////////////////////////////////////////////////////////////////////\r
556// PITCH register write\r
557////////////////////////////////////////////////////////////////////////\r
558\r
7e44d49d 559static void SetPitch(int ch,unsigned short val) // SET PITCH\r
ef79bbde
P		 560{\r
561 int NP;\r
562 if(val>0x3fff) NP=0x3fff; // get pitch val\r
563 else NP=val;\r
564\r
565 s_chan[ch].iRawPitch=NP;\r
7e44d49d 566 s_chan[ch].sinc=(NP<<4)|8;\r
567 if(iUseInterpolation==1) s_chan[ch].SB[32]=1; // -> freq change in simple interpolation mode: set flag\r
ef79bbde
P		 568}\r
569\r
570////////////////////////////////////////////////////////////////////////\r
571// REVERB register write\r
572////////////////////////////////////////////////////////////////////////\r
573\r
7e44d49d 574static void ReverbOn(int start,int end,unsigned short val)\r
ef79bbde
P		 575{\r
576 int ch;\r
577\r
578 for(ch=start;ch<end;ch++,val>>=1) // loop channels\r
579 {\r
6d866bb7 580 s_chan[ch].bReverb=val&1; // -> reverb on/off\r
ef79bbde
P		 581 }\r
582}\r
ARM optimized PCSX fork