Match and link snd3d.c

Former-commit-id: 0c0fecfb797ed42f5e50d43fd5149eff7d4bcba0
This commit is contained in:
Phillip Stephens 2023-10-21 10:29:58 -07:00
parent 476175e460
commit a29290780b
7 changed files with 151 additions and 47 deletions

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@ -1184,7 +1184,7 @@ config.libs = [
Object(Matching, "musyx/runtime/s_data.c"), Object(Matching, "musyx/runtime/s_data.c"),
Object(NonMatching, "musyx/runtime/hw_dspctrl.c"), Object(NonMatching, "musyx/runtime/hw_dspctrl.c"),
Object(Matching, "musyx/runtime/hw_volconv.c"), Object(Matching, "musyx/runtime/hw_volconv.c"),
Object(NonMatching, "musyx/runtime/snd3d.c"), Object(Matching, "musyx/runtime/snd3d.c"),
Object(Matching, "musyx/runtime/snd_init.c"), Object(Matching, "musyx/runtime/snd_init.c"),
Object(Matching, "musyx/runtime/snd_math.c"), Object(Matching, "musyx/runtime/snd_math.c"),
Object(NonMatching, "musyx/runtime/snd_midictrl.c"), Object(NonMatching, "musyx/runtime/snd_midictrl.c"),

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@ -30,6 +30,10 @@ void hwSetVirtualSampleLoopBuffer(u32 voice, void* addr, u32 len);
u16 hwGetSampleID(u32 voice); u16 hwGetSampleID(u32 voice);
u8 hwGetSampleType(u32 voice); u8 hwGetSampleType(u32 voice);
void hwChangeStudioMix(u8 studio, u32 isMaster); void hwChangeStudioMix(u8 studio, u32 isMaster);
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
void hwSetFilter(unsigned long v, unsigned char mode, unsigned short coefA, unsigned short coefB);
void hwLowPassFrqToCoef(unsigned long frq, unsigned short* _a0, unsigned short* _b1);
#endif
#ifdef __cplusplus #ifdef __cplusplus
} }

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@ -513,7 +513,11 @@ typedef struct SYNTH_VOICE {
u32 id; // offset 0xF4, size 0x4 u32 id; // offset 0xF4, size 0x4
VID_LIST* vidList; // offset 0xF8, size 0x4 VID_LIST* vidList; // offset 0xF8, size 0x4
VID_LIST* vidMasterList; // offset 0xFC, size 0x4 VID_LIST* vidMasterList; // offset 0xFC, size 0x4
#if MUSY_VERSION <= MUSY_VERSION_CHECK(2, 0, 0)
u16 allocId; // offset 0x100, size 0x2 u16 allocId; // offset 0x100, size 0x2
#else
u32 allocId;
#endif
u16 macroId; // offset 0x102, size 0x2 u16 macroId; // offset 0x102, size 0x2
u8 keyGroup; // offset 0x104, size 0x1 u8 keyGroup; // offset 0x104, size 0x1
u32 lastVID; // offset 0x108, size 0x4 u32 lastVID; // offset 0x108, size 0x4
@ -534,6 +538,9 @@ typedef struct SYNTH_VOICE {
#endif #endif
u32 sInfo; // offset 0x124, size 0x4 u32 sInfo; // offset 0x124, size 0x4
u32 playFrq; // offset 0x128, size 0x4 u32 playFrq; // offset 0x128, size 0x4
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
u16 sampleId;
#endif
u16 curNote; // offset 0x12C, size 0x2 u16 curNote; // offset 0x12C, size 0x2
s8 curDetune; // offset 0x12E, size 0x1 s8 curDetune; // offset 0x12E, size 0x1
u8 orgNote; // offset 0x12F, size 0x1 u8 orgNote; // offset 0x12F, size 0x1
@ -577,6 +584,10 @@ typedef struct SYNTH_VOICE {
u8 pbLowerKeyRange; // offset 0x1D6, size 0x1 u8 pbLowerKeyRange; // offset 0x1D6, size 0x1
u8 pbUpperKeyRange; // offset 0x1D7, size 0x1 u8 pbUpperKeyRange; // offset 0x1D7, size 0x1
u16 pbLast; // offset 0x1D8, size 0x2 u16 pbLast; // offset 0x1D8, size 0x2
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
u32 lpfLowerFrqBoundary;
u32 lpfUpperFrqBoundary;
#endif
ADSR_VARS pitchADSR; // offset 0x1DC, size 0x28 ADSR_VARS pitchADSR; // offset 0x1DC, size 0x28
s16 pitchADSRRange; // offset 0x204, size 0x2 s16 pitchADSRRange; // offset 0x204, size 0x2
u16 curPitch; // offset 0x206, size 0x2 u16 curPitch; // offset 0x206, size 0x2
@ -606,6 +617,10 @@ typedef struct SYNTH_VOICE {
CTRL_DEST inpPreAuxB; // offset 0x380, size 0x24 CTRL_DEST inpPreAuxB; // offset 0x380, size 0x24
CTRL_DEST inpPostAuxB; // offset 0x3A4, size 0x24 CTRL_DEST inpPostAuxB; // offset 0x3A4, size 0x24
CTRL_DEST inpTremolo; // offset 0x3C8, size 0x24 CTRL_DEST inpTremolo; // offset 0x3C8, size 0x24
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
CTRL_DEST inpFilterSwitch; // offset 0x3F8, size 0x24
CTRL_DEST inpFilterParameter; // offset 0x41C, size 0x24
#endif
u8 mesgNum; // offset 0x3EC, size 0x1 u8 mesgNum; // offset 0x3EC, size 0x1
u8 mesgRead; // offset 0x3ED, size 0x1 u8 mesgRead; // offset 0x3ED, size 0x1
u8 mesgWrite; // offset 0x3EE, size 0x1 u8 mesgWrite; // offset 0x3EE, size 0x1
@ -855,7 +870,11 @@ typedef struct ADSR_INFO {
} ADSR_INFO; } ADSR_INFO;
void dataInit(u32, u32); /* extern */ void dataInit(u32, u32); /* extern */
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
void dataInitStack(unsigned long aramBase, unsigned long aramSize);
#else
void dataInitStack(); /* extern */ void dataInitStack(); /* extern */
#endif
u32 dataInsertSDir(SDIR_DATA* sdir, void* smp_data); u32 dataInsertSDir(SDIR_DATA* sdir, void* smp_data);
u32 dataRemoveSDir(SDIR_DATA* sdir); u32 dataRemoveSDir(SDIR_DATA* sdir);
u32 dataInsertMacro(u16 mid, void* macroaddr); u32 dataInsertMacro(u16 mid, void* macroaddr);
@ -1058,6 +1077,11 @@ void inpSetMidiCtrl(u8 ctrl, u8 channel, u8 set, u8 value);
void inpSetMidiCtrl14(u8 ctrl, u8 channel, u8 set, u16 value); void inpSetMidiCtrl14(u8 ctrl, u8 channel, u8 set, u16 value);
void inpSetExCtrl(SYNTH_VOICE* svoice, u8 ctrl, s16 v); void inpSetExCtrl(SYNTH_VOICE* svoice, u8 ctrl, s16 v);
CHANNEL_DEFAULTS* inpGetChannelDefaults(u8 midi, u8 midiSet); CHANNEL_DEFAULTS* inpGetChannelDefaults(u8 midi, u8 midiSet);
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
unsigned short inpGetFilterSwitch(struct SYNTH_VOICE* svoice);
unsigned short inpGetFilterParameter(struct SYNTH_VOICE* svoice);
void inpSetLPFDefaultRange(u32 lowFrq, u32 highFrq);
#endif
extern CTRL_DEST inpAuxA[8][4]; extern CTRL_DEST inpAuxA[8][4];
extern CTRL_DEST inpAuxB[8][4]; extern CTRL_DEST inpAuxB[8][4];
void inpSetMidiLastNote(u8 midi, u8 midiSet, u8 key); void inpSetMidiLastNote(u8 midi, u8 midiSet, u8 key);

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@ -40,6 +40,11 @@ void hwSetAUXProcessingCallbacks(u8 studio, SND_AUX_CALLBACK auxA, void* userA,
MSTEP* dataGetMacro(u16 mid); MSTEP* dataGetMacro(u16 mid);
u32 voiceAllocate(u8 priority, u8 maxVoices, u16 allocId, u8 fxFlag); u32 voiceAllocate(u8 priority, u8 maxVoices, u16 allocId, u8 fxFlag);
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
int voiceAllocatePeek(u8 priority, u8 maxVoices, u32 allocId, u8 fxFlag, u32 * currentAllocId);
#endif
void voiceFree(SYNTH_VOICE* svoice); void voiceFree(SYNTH_VOICE* svoice);
void synthActivateStudio(u8 studio, u32 isMaster, SND_STUDIO_TYPE type); void synthActivateStudio(u8 studio, u32 isMaster, SND_STUDIO_TYPE type);
void synthDeactivateStudio(u8 studio); void synthDeactivateStudio(u8 studio);

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@ -125,7 +125,7 @@ static void CheckRoomStatus() {
room->distance = distance; room->distance = distance;
room->curMVol = has_listener ? 0x7f0000 : 0; room->curMVol = has_listener ? 0x7f0000 : 0;
if (room->curMVol * 1.201479e-07f >= 0.5) { if (room->curMVol * 1.2014794e-07f >= 0.5) {
synthActivateStudio(room->studio, TRUE, SND_STUDIO_TYPE_STD); synthActivateStudio(room->studio, TRUE, SND_STUDIO_TYPE_STD);
} else { } else {
synthActivateStudio(room->studio, FALSE, SND_STUDIO_TYPE_STD); synthActivateStudio(room->studio, FALSE, SND_STUDIO_TYPE_STD);
@ -142,7 +142,7 @@ static void CheckRoomStatus() {
room->flags &= ~0x80000000; room->flags &= ~0x80000000;
} }
if (room->curMVol * 1.201479e-07f >= 0.5) { if (room->curMVol * 1.2014794e-07f >= 0.5) {
synthActivateStudio(room->studio, TRUE, SND_STUDIO_TYPE_STD); synthActivateStudio(room->studio, TRUE, SND_STUDIO_TYPE_STD);
} else { } else {
synthActivateStudio(room->studio, FALSE, SND_STUDIO_TYPE_STD); synthActivateStudio(room->studio, FALSE, SND_STUDIO_TYPE_STD);
@ -155,7 +155,7 @@ static void CheckRoomStatus() {
room->curMVol = 0; room->curMVol = 0;
room->flags &= ~0x40000000; room->flags &= ~0x40000000;
} }
if (room->curMVol * 1.201479e-07f >= 0.5) { if (room->curMVol * 1.2014794e-07f >= 0.5) {
synthActivateStudio(room->studio, TRUE, SND_STUDIO_TYPE_STD); synthActivateStudio(room->studio, TRUE, SND_STUDIO_TYPE_STD);
} else { } else {
synthActivateStudio(room->studio, FALSE, SND_STUDIO_TYPE_STD); synthActivateStudio(room->studio, FALSE, SND_STUDIO_TYPE_STD);
@ -444,7 +444,7 @@ static u16 clip3FFF(u32 v) {
return v; return v;
} }
static void SetFXParameters(SND_EMITTER* em, f32 vol, f32 xPan, f32 yPan, f32 zPan, f32 doppler) { static void SetFXParameters(SND_EMITTER* const em, f32 vol, f32 xPan, f32 yPan, f32 zPan, f32 doppler) {
SND_VOICEID vid; // r30 SND_VOICEID vid; // r30
u8 i; // r28 u8 i; // r28
SND_PARAMETER* pPtr; // r31 SND_PARAMETER* pPtr; // r31

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@ -26,21 +26,29 @@
*/ */
static s32 DoInit(u32 rate, u32 aramSize, u32 voices, u32 flags) { #if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
long DoInit(u32 mixFrq, u32 numVoices, u32 flags, u32 aramBase, u32 aramSize)
#else
static s32 DoInit(u32 mixFrq, u32 aramSize, u32 numVoices, u32 flags)
#endif
{
bool ret; bool ret;
MUSY_DEBUG("\nMusyX software initialization...\nBuild Date: %s %s\n\n", __DATE__, __TIME__); MUSY_DEBUG("\nMusyX software initialization...\nBuild Date: %s %s\n\n", "Dec 17 2003", "20:32:41");
ret = FALSE; ret = FALSE;
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
dataInitStack(aramBase, aramGetUserBytes(aramSize));
#else
dataInitStack(); dataInitStack();
#endif
dataInit(0, aramSize); dataInit(0, aramSize);
seqInit(); seqInit();
synthIdleWaitActive = 0; synthIdleWaitActive = 0;
synthInit(rate, voices); synthInit(mixFrq, numVoices);
streamInit(); streamInit();
@ -72,6 +80,7 @@ s32 sndInit(u8 voices, u8 music, u8 sfx, u8 studios, u32 flags, u32 aramSize) {
u32 frq; // r1+0x14 u32 frq; // r1+0x14
MUSY_DEBUG("Entering sndInit()\n\n"); MUSY_DEBUG("Entering sndInit()\n\n");
ret = 0;
sndActive = 0; sndActive = 0;
if (voices <= 64) { if (voices <= 64) {
synthInfo.voiceNum = voices; synthInfo.voiceNum = voices;
@ -88,7 +97,11 @@ s32 sndInit(u8 voices, u8 music, u8 sfx, u8 studios, u32 flags, u32 aramSize) {
synthInfo.maxSFX = sfx; synthInfo.maxSFX = sfx;
frq = 32000; frq = 32000;
if ((ret = hwInit(&frq, synthInfo.voiceNum, synthInfo.studioNum, flags)) == 0) { if ((ret = hwInit(&frq, synthInfo.voiceNum, synthInfo.studioNum, flags)) == 0) {
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
ret = DoInit(32000, synthInfo.voiceNum, flags, aramGetFirstUserAddress(), aramSize);
#else
ret = DoInit(32000, aramSize, synthInfo.voiceNum, flags); ret = DoInit(32000, aramSize, synthInfo.voiceNum, flags);
#endif
} }
MUSY_DEBUG("Leaving sndInit().\n\n"); MUSY_DEBUG("Leaving sndInit().\n\n");
@ -145,3 +158,9 @@ SND_PLAYBACKINFO* sndGetPlayBackInfo() {
return NULL; return NULL;
} }
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
void sndSetLowPassFilterDefaultRange(unsigned long lowFrq, unsigned long highFrq) {
inpSetLPFDefaultRange(lowFrq, highFrq);
}
#endif

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@ -1,5 +1,6 @@
#include "musyx/synth.h" #include "musyx/synth.h"
#include "musyx/hardware.h"
#include "musyx/musyx_priv.h" #include "musyx/musyx_priv.h"
static u32 synthTicksPerSecond[9][16]; static u32 synthTicksPerSecond[9][16];
@ -315,7 +316,6 @@ static void unblockAllAllocatedVoices(u32 vid) {
u32 id; // r31 u32 id; // r31
id = vidGetInternalId(vid); id = vidGetInternalId(vid);
#line 501
MUSY_ASSERT_MSG(id != SND_ID_ERROR, "*** Alloc unblock: ID is illegal"); MUSY_ASSERT_MSG(id != SND_ID_ERROR, "*** Alloc unblock: ID is illegal");
while (id != SND_ID_ERROR) { while (id != SND_ID_ERROR) {
synthVoice[id & 0xff].block = 0; synthVoice[id & 0xff].block = 0;
@ -393,7 +393,11 @@ static void UpdateTimeMIDICtrl(SYNTH_VOICE* sv) {
} }
sv->timeUsedByInput = 0; sv->timeUsedByInput = 0;
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
sv->midiDirtyFlags = 0x7fff;
#else
sv->midiDirtyFlags = 0x1fff; sv->midiDirtyFlags = 0x1fff;
#endif
} }
static void LowPrecisionHandler(u32 i) { static void LowPrecisionHandler(u32 i) {
@ -430,7 +434,11 @@ static void LowPrecisionHandler(u32 i) {
sv->lfo[j].lastValue = sv->lfo[j].value; sv->lfo[j].lastValue = sv->lfo[j].value;
if (sv->lfoUsedByInput[j]) { if (sv->lfoUsedByInput[j]) {
sv->lfoUsedByInput[j] = 0; sv->lfoUsedByInput[j] = 0;
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
sv->midiDirtyFlags |= 0x7fff;
#else
sv->midiDirtyFlags |= 0x1fff; sv->midiDirtyFlags |= 0x1fff;
#endif
} }
} }
} }
@ -441,8 +449,13 @@ static void LowPrecisionHandler(u32 i) {
} }
if (sv->sweepNum[0] | sv->sweepNum[1]) { if (sv->sweepNum[0] | sv->sweepNum[1]) {
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
cntDelta = (lowDeltaTime << 8) >> 4;
addFactor = (lowDeltaTime << 4) >> 4;
#else
cntDelta = (lowDeltaTime & 0x00ffffff) << 4; cntDelta = (lowDeltaTime & 0x00ffffff) << 4;
addFactor = lowDeltaTime & 0x0fffffff; addFactor = lowDeltaTime & 0x0fffffff;
#endif
for (j = 0; j < 2; ++j) { for (j = 0; j < 2; ++j) {
if (sv->sweepNum[j] == 0) { if (sv->sweepNum[j] == 0) {
continue; continue;
@ -508,14 +521,18 @@ static void LowPrecisionHandler(u32 i) {
Modulation = inpGetModulation(sv); Modulation = inpGetModulation(sv);
vrange = sv->vibKeyRange * 256 + (sv->vibCentRange * 256) / 100; vrange = sv->vibKeyRange * 256 + (sv->vibCentRange * 256) / 100;
if (sv->vibModAddScale != 0) { if (sv->vibModAddScale != 0) {
#if MUSY_VERSION >= MUSY_VERSION_CHECK(1, 5, 4) #if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
vrange += (sv->vibModAddScale * (Modulation >> 7)) >> 7;
#elif MUSY_VERSION >= MUSY_VERSION_CHECK(1, 5, 4)
vrange += (sv->vibModAddScale * ((Modulation & 0x1ffff) >> 7)) >> 7; vrange += (sv->vibModAddScale * ((Modulation & 0x1ffff) >> 7)) >> 7;
#else #else
vrange += (sv->vibModAddScale * ((Modulation >> 7) & 0x1ff)) >> 7; vrange += (sv->vibModAddScale * ((Modulation >> 7) & 0x1ff)) >> 7;
#endif #endif
} }
if ((sv->cFlags & 0x4000) != 0) { if ((sv->cFlags & 0x4000) != 0) {
#if MUSY_VERSION >= MUSY_VERSION_CHECK(1, 5, 4) #if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
voff = (sv->vibCurOffset * (Modulation >> 7)) >> 7;
#elif MUSY_VERSION >= MUSY_VERSION_CHECK(1, 5, 4)
voff = (sv->vibCurOffset * ((Modulation & 0x1ffff) >> 7)) >> 7; voff = (sv->vibCurOffset * ((Modulation & 0x1ffff) >> 7)) >> 7;
#else #else
voff = (sv->vibCurOffset * ((Modulation >> 7) & 0x1ff)) >> 7; voff = (sv->vibCurOffset * ((Modulation >> 7) & 0x1ff)) >> 7;
@ -575,6 +592,12 @@ static void ZeroOffsetHandler(u32 i) {
s32 pan; // r28 s32 pan; // r28
f32 preVol; // f26 f32 preVol; // f26
f32 postVol; // f29 f32 postVol; // f29
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
unsigned short para; // r22
unsigned short a0; // r1+0xA
unsigned short b0; // r1+0x8
unsigned long frq; // r21
#endif
sv = &synthVoice[i]; sv = &synthVoice[i];
if (!hwIsActive(i) && sv->addr == NULL) { if (!hwIsActive(i) && sv->addr == NULL) {
@ -664,17 +687,28 @@ static void ZeroOffsetHandler(u32 i) {
if (volUpdate || (sv->midiDirtyFlags & 0xf01) != 0) { if (volUpdate || (sv->midiDirtyFlags & 0xf01) != 0) {
preVol = voiceVol; preVol = voiceVol;
postVol = voiceVol * vol * (f32)inpGetVolume(sv) * 0.00006103888f /* 1/16384? */; postVol = voiceVol * vol * (f32)inpGetVolume(sv) * (1.f/16383.f) /* 1/16384? */;
auxa = ((f32)sv->revVolOffset * (1.f / 127.f)) + auxa = ((f32)sv->revVolOffset * (1.f / 127.f)) +
((preVol * (f32)inpGetPreAuxA(sv) * 0.00006103888f /* 1/16384? */) + ((preVol * (f32)inpGetPreAuxA(sv) * (1.f/16383.f) /* 1/16384? */) +
((f32)sv->revVolScale * ((f32)sv->revVolScale *
(postVol * (f32)inpGetReverb(sv) * 0.00006103888f /* 1/16384? */) * (1.f / 127.f))); (postVol * (f32)inpGetReverb(sv) * (1.f/16383.f) /* 1/16384? */) * (1.f / 127.f)));
auxb = (preVol * (f32)inpGetPreAuxB(sv) * 0.00006103888f /* 1/16384? */) + auxb = (preVol * (f32)inpGetPreAuxB(sv) * (1.f/16383.f) /* 1/16384? */) +
(postVol * (f32)inpGetPostAuxB(sv) * 0.00006103888f /* 1/16384? */); (postVol * (f32)inpGetPostAuxB(sv) * (1.f/16383.f) /* 1/16384? */);
sv->curOutputVolume = (u16)(postVol * 32767.f); sv->curOutputVolume = (u16)(postVol * 32767.f);
hwSetVolume(i, sv->volTable, postVol, sv->lastPan, sv->lastSPan, auxa, auxb); hwSetVolume(i, sv->volTable, postVol, sv->lastPan, sv->lastSPan, auxa, auxb);
} }
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
if (sv->midiDirtyFlags & 0x6000) {
if (inpGetFilterSwitch(sv) > 0x1FFF) {
para = inpGetFilterParameter(sv);
frq = sv->lpfLowerFrqBoundary + (u32)((1.f - ((1.f/16383.f) * para)) * (sv->lpfUpperFrqBoundary - sv->lpfLowerFrqBoundary));
hwLowPassFrqToCoef(frq, &a0, &b0);
hwSetFilter(i, 1, a0, b0);
} else {
hwSetFilter(i, 0, 0, 0);
}
}
#endif
if (sv->age != 0) { if (sv->age != 0) {
if ((s32)(sv->age -= sv->ageSpeed * lowDeltaTime) < 0) { if ((s32)(sv->age -= sv->ageSpeed * lowDeltaTime) < 0) {
sv->age = 0; sv->age = 0;
@ -943,6 +977,26 @@ u32 synthFXStart(u16 fid, u8 vol, u8 pan, u8 studio, u32 itd) {
return v; return v;
} }
#if MUSY_VERSION >= MUSY_VERSION_CHECK(2, 0, 3)
int synthCheckFXRealloc(unsigned short fid) {
struct FX_TAB* fx; // r31
unsigned long allocId; // r30
unsigned long currentAllocId; // r1+0x8
fx = dataGetFX(fid);
if (fx == NULL) {
return 0;
}
allocId = fid | 0x80000000;
if (!voiceAllocatePeek(fx->priority, fx->maxVoices, allocId, TRUE, &currentAllocId)) {
return 0;
}
return allocId == currentAllocId;
}
#endif
bool synthFXSetCtrl(u32 vid, u8 ctrl, u8 value) { bool synthFXSetCtrl(u32 vid, u8 ctrl, u8 value) {
u32 i; // r31 u32 i; // r31
u32 ret; // r29 u32 ret; // r29
@ -1264,7 +1318,6 @@ static u32 synthHWMessageHandler(u32 mesg, u32 voiceID) {
break; break;
default: default:
#line 1975
MUSY_ASSERT(FALSE); MUSY_ASSERT(FALSE);
break; break;
} }
@ -1283,7 +1336,6 @@ void synthInit(u32 mixFrq, u32 numVoices) {
synthVoice = salMalloc(numVoices * sizeof(SYNTH_VOICE)); synthVoice = salMalloc(numVoices * sizeof(SYNTH_VOICE));
if (synthVoice == NULL) { if (synthVoice == NULL) {
#line 2135
MUSY_FATAL("Fatal: Could not allocate synthesizer voice array."); MUSY_FATAL("Fatal: Could not allocate synthesizer voice array.");
} }
memset(synthVoice, 0, numVoices * sizeof(SYNTH_VOICE)); memset(synthVoice, 0, numVoices * sizeof(SYNTH_VOICE));