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#include "SND_exChannel.h"
#include "SND_channel.h"
#include "SND_main.h"
#include "SND_work.h"
#include "SND_lockChannel.h"
#include "SND_util.h"
#include "registers.h"
// TODO import these tables into here if they belong here
extern u8 sChannelAllocationOrder[SND_CHANNEL_COUNT];
extern u8 sAttackCoeffTable[19];
void SND_ExChannelInit(void) {
struct SNDExChannel *chn;
s32 i;
for (i = 0; i < SND_CHANNEL_COUNT; i++) {
chn = &SNDi_Work.channels[i];
chn->id = (u8)i;
chn->flags.syncFlag = 0;
chn->flags.active = FALSE;
}
sLockedChannelMask = 0;
sWeakLockedChannelMask = 0;
}
void SND_UpdateExChannel(void) {
struct SNDExChannel *chn;
s32 i;
for (i = 0; i < SND_CHANNEL_COUNT; i++) {
chn = &SNDi_Work.channels[i];
if (chn->flags.syncFlag == 0)
continue;
if (chn->flags.syncFlag & SND_CHN_SYNC_STOP)
SND_StopChannel(i, 0);
if (chn->flags.syncFlag & SND_CHN_SYNC_START) {
switch (chn->type) {
case SND_CHN_TYPE_PCM:
SND_SetupChannelPcm(
i,
chn->waveDataPtr,
chn->waveParam.format,
chn->waveParam.loopEnabled ? 1 : 2,
(s32)chn->waveParam.loopStart,
(s32)chn->waveParam.loopLength,
chn->volume & 0xFF,
chn->volume >> 8,
chn->timer,
chn->pan
);
break;
case SND_CHN_TYPE_PSG:
SND_SetupChannelPsg(
i,
chn->dutyCycle,
chn->volume & 0xFF,
chn->volume >> 8,
chn->timer,
chn->pan
);
break;
case SND_CHN_TYPE_NOISE:
SND_SetupChannelNoise(
i,
chn->volume & 0xFF,
chn->volume >> 8,
chn->timer,
chn->pan
);
break;
}
} else {
if (chn->flags.syncFlag & SND_CHN_SYNC_TIMER) {
SND_SetChannelTimer(i, chn->timer);
}
if (chn->flags.syncFlag & SND_CHN_SYNC_VOLUME) {
SND_SetChannelVolume(i, chn->volume & 0xFF, chn->volume >> 8);
}
if (chn->flags.syncFlag & SND_CHN_SYNC_PAN) {
SND_SetChannelPan(i, chn->pan);
}
}
}
for (i = 0; i < SND_CHANNEL_COUNT; i++) {
chn = &SNDi_Work.channels[i];
if (!chn->flags.syncFlag)
continue;
if (chn->flags.syncFlag & SND_CHN_SYNC_START)
reg_SOUNDxCNT_STAT(i) |= 0x80;
chn->flags.syncFlag = 0;
}
}
void SND_ExChannelMain(BOOL step) {
struct SNDExChannel *chn;
s32 i;
s32 vol;
s32 pitch;
s32 pan;
s32 lfo;
u16 newTimer;
for (i = 0; i < SND_CHANNEL_COUNT; i++) {
vol = 0;
pitch = 0;
pan = 0;
chn = &SNDi_Work.channels[i];
if (!chn->flags.active)
continue;
if (chn->flags.start) {
chn->flags.syncFlag |= SND_CHN_SYNC_START;
chn->flags.start = FALSE;
} else if (!SND_IsChannelActive(i)) {
if (chn->callback)
chn->callback(chn, 1, chn->callbackUserData);
else
chn->priority = 0;
chn->volume = 0;
chn->flags.active = FALSE;
continue;
}
vol += SNDi_DecibelSquareTable[chn->velocity];
pitch += (chn->midiKey - chn->rootMidiKey) * 0x40;
vol += SND_UpdateExChannelEnvelope(chn, step);
pitch += ExChannelSweepUpdate(chn, step);
vol += chn->userDecay;
vol += chn->userDecay2;
pitch += chn->userPitch;
lfo = ExChannelLfoUpdate(chn, step);
switch (chn->lfo.param.target) {
case SND_LFO_VOLUME:
if (vol > -0x8000)
vol += lfo;
break;
case SND_LFO_PAN:
pan += lfo;
break;
case SND_LFO_PITCH:
pitch += lfo;
break;
}
pan += chn->initPan;
if (chn->panRange != 127) {
pan = (pan * chn->panRange + 0x40) >> 7;
}
pan += chn->userPan;
if (chn->envStatus == SND_ENV_RELEASE && vol <= -723) {
chn->flags.syncFlag = SND_CHN_SYNC_STOP;
if (chn->callback)
chn->callback(chn, 1, chn->callbackUserData);
else
chn->priority = 0;
chn->volume = 0;
chn->flags.active = 0;
} else {
vol = SND_CalcChannelVolume(vol);
newTimer = SND_CalcTimer(chn->waveParam.timer, pitch);
if (chn->type == SND_CHN_TYPE_PSG)
newTimer &= 0xFFFC;
pan += 0x40;
if (pan < 0)
pan = 0;
else if (pan > 127)
pan = 127;
if (vol != chn->volume) {
chn->volume = (u16)vol;
chn->flags.syncFlag |= SND_CHN_SYNC_VOLUME;
}
if (newTimer != chn->timer) {
chn->timer = (u16)newTimer;
chn->flags.syncFlag |= SND_CHN_SYNC_TIMER;
}
if (pan != chn->pan) {
chn->pan = (u8)pan;
chn->flags.syncFlag |= SND_CHN_SYNC_PAN;
}
}
}
}
BOOL SND_StartExChannelPcm(struct SNDExChannel *chn, const struct SNDWaveParam *wave, const void *data, s32 length) {
chn->type = SND_CHN_TYPE_PCM;
chn->waveParam = *wave;
chn->waveDataPtr = data;
ExChannelStart(chn, length);
return TRUE;
}
BOOL SND_StartExChannelPsg(struct SNDExChannel *chn, s32 duty, s32 length) {
if (chn->id < 8) {
return FALSE;
} else if (chn->id > 13) {
return FALSE;
} else {
chn->type = SND_CHN_TYPE_PSG;
chn->dutyCycle = duty;
chn->waveParam.timer = 8006;
ExChannelStart(chn, length);
return TRUE;
}
}
BOOL SND_StartExChannelNoise(struct SNDExChannel *chn, s32 length) {
if (chn->id < 14) {
return FALSE;
} else if (chn->id > 15) {
return FALSE;
} else {
chn->type = SND_CHN_TYPE_NOISE;
chn->waveParam.timer = 8006;
ExChannelStart(chn, length);
return TRUE;
}
}
s32 SND_UpdateExChannelEnvelope(struct SNDExChannel *chn, BOOL step) {
s32 sustain;
if (step) {
switch (chn->envStatus) {
case SND_ENV_ATTACK:
chn->envAttenuation = -((-chn->envAttenuation * chn->envAttack) >> 8);
if (chn->envAttenuation == 0)
chn->envStatus = SND_ENV_DECAY;
break;
case SND_ENV_DECAY:
sustain = SNDi_DecibelSquareTable[chn->envSustain] << 7;
chn->envAttenuation -= chn->envDecay;
if (chn->envAttenuation <= sustain) {
chn->envAttenuation = sustain;
chn->envStatus = SND_ENV_SUSTAIN;
}
break;
case SND_ENV_SUSTAIN:
break;
case SND_ENV_RELEASE:
chn->envAttenuation -= chn->envRelease;
break;
}
}
return chn->envAttenuation >> 7;
}
void SND_SetExChannelAttack(struct SNDExChannel *chn, s32 attack) {
if (attack < 109)
chn->envAttack = (u8)(255 - attack);
else
chn->envAttack = sAttackCoeffTable[127 - attack];
}
void SND_SetExChannelDecay(struct SNDExChannel *chn, s32 decay) {
chn->envDecay = CalcDecayCoeff(decay);
}
void SND_SetExChannelSustain(struct SNDExChannel *chn, s32 sustain) {
chn->envSustain = (u8)sustain;
}
void SND_SetExChannelRelease(struct SNDExChannel *chn, s32 release) {
chn->envRelease = CalcDecayCoeff(release);
}
void SND_ReleaseExChannel(struct SNDExChannel *chn) {
chn->envStatus = SND_ENV_RELEASE;
}
BOOL SND_IsExChannelActive(struct SNDExChannel *chn) {
return chn->flags.active;
}
struct SNDExChannel *SND_AllocExChannel(u32 channelMask, int priority, u32 flags, SNDExChannelCallback callback, void *callbackUserData) {
struct SNDExChannel *chnPrev;
int i;
struct SNDExChannel *chn;
u8 channelCandidate;
channelMask &= ~sLockedChannelMask;
if (flags == 0)
channelMask &= ~sWeakLockedChannelMask;
chnPrev = NULL;
for (i = 0; i < SND_CHANNEL_COUNT; i++) {
channelCandidate = sChannelAllocationOrder[i];
if (channelMask & (1 << channelCandidate)) {
chn = &SNDi_Work.channels[channelCandidate];
if (chnPrev == NULL) {
chnPrev = chn;
continue;
}
if (chn->priority > chnPrev->priority)
continue;
if (chn->priority != chnPrev->priority || ExChannelVolumeCmp(chnPrev, chn) < 0)
chnPrev = chn;
}
}
if (chnPrev == NULL)
return NULL;
if (priority < chnPrev->priority)
return NULL;
if (chnPrev->callback)
chnPrev->callback(chnPrev, 0, chnPrev->callbackUserData);
chnPrev->flags.syncFlag = 2;
chnPrev->flags.active = 0;
ExChannelSetup(chnPrev, callback, callbackUserData, priority);
return chnPrev;
}
void SND_FreeExChannel(struct SNDExChannel *chn) {
if (chn) {
chn->callback = NULL;
chn->callbackUserData = NULL;
}
}
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