#ifndef AUDIO_INTERNAL_H #define AUDIO_INTERNAL_H #include #include "types.h" #ifdef VERSION_EU #define SEQUENCE_PLAYERS 4 #define SEQUENCE_CHANNELS 48 #define SEQUENCE_LAYERS 64 #else #define SEQUENCE_PLAYERS 3 #define SEQUENCE_CHANNELS 32 #ifdef VERSION_JP #define SEQUENCE_LAYERS 48 #else #define SEQUENCE_LAYERS 52 #endif #endif #define LAYERS_MAX 8 #define CHANNELS_MAX 32 #define NO_LAYER ((struct SequenceChannelLayer *)(-1)) #define MUTE_BEHAVIOR_STOP_SCRIPT 0x80 // stop processing sequence/channel scripts #define MUTE_BEHAVIOR_STOP_NOTES 0x40 // prevent further notes from playing #define MUTE_BEHAVIOR_SOFTEN 0x20 // lower volume, by default to half #define SEQUENCE_PLAYER_STATE_0 0 #define SEQUENCE_PLAYER_STATE_FADE_OUT 1 #define SEQUENCE_PLAYER_STATE_2 2 #define SEQUENCE_PLAYER_STATE_3 3 #define SEQUENCE_PLAYER_STATE_4 4 #define NOTE_PRIORITY_DISABLED 0 #define NOTE_PRIORITY_STOPPING 1 #define NOTE_PRIORITY_MIN 2 #define NOTE_PRIORITY_DEFAULT 3 #define TATUMS_PER_BEAT 48 #ifdef VERSION_JP #define TEMPO_SCALE 1 #else #define TEMPO_SCALE TATUMS_PER_BEAT #endif // TODO: US_FLOAT should probably be renamed to JP_DOUBLE since eu seems to use floats too #ifdef VERSION_JP #define US_FLOAT(x) x #else #define US_FLOAT(x) x ## f #endif // Convert u8 or u16 to f32. On JP, this uses a u32->f32 conversion, // resulting in more bloated codegen, while on US it goes through s32. // Since u8 and u16 fit losslessly in both, behavior is the same. #ifdef VERSION_JP #define FLOAT_CAST(x) (f32) (x) #else #define FLOAT_CAST(x) (f32) (s32) (x) #endif struct NotePool; struct AudioListItem { // A node in a circularly linked list. Each node is either a head or an item: // - Items can be either detached (prev = NULL), or attached to a list. // 'value' points to something of interest. // - List heads are always attached; if a list is empty, its head points // to itself. 'count' contains the size of the list. // If the list holds notes, 'pool' points back to the pool where it lives. // Otherwise, that member is NULL. struct AudioListItem *prev; struct AudioListItem *next; union { void *value; // either Note* or SequenceChannelLayer* s32 count; } u; struct NotePool *pool; }; // size = 0x10 struct NotePool { struct AudioListItem disabled; struct AudioListItem decaying; struct AudioListItem releasing; struct AudioListItem active; }; struct VibratoState { /*0x00, 0x00*/ struct SequenceChannel *seqChannel; /*0x04, 0x04*/ u32 time; #ifdef VERSION_EU /* , 0x08*/ s16 *curve; /* , 0x0C*/ f32 extent; /* , 0x10*/ f32 rate; /* , 0x14*/ u8 active; #endif #ifndef VERSION_EU /*0x08, */ s8 *curve; /*0x0C, */ u8 active; /*0x0E, */ u16 rate; /*0x10, */ u16 extent; #endif /*0x12, 0x16*/ u16 rateChangeTimer; /*0x14, 0x18*/ u16 extentChangeTimer; /*0x16, 0x1A*/ u16 delay; }; // size = 0x18, 0x1C on EU // Pitch sliding by up to one octave in the positive direction. Negative // direction is "supported" by setting extent to be negative. The code // extrapolates exponentially in the wrong direction in that case, but that // doesn't prevent seqplayer from doing it, AFAICT. struct Portamento { u8 mode; // bit 0x80 denotes something; the rest are an index 0-5 f32 cur; f32 speed; f32 extent; }; // size = 0x10 struct AdsrEnvelope { s16 delay; s16 arg; }; // size = 0x4 struct AdpcmLoop { u32 start; u32 end; u32 count; u32 pad; s16 state[16]; // only exists if count != 0. 8-byte aligned }; struct AdpcmBook { s32 order; s32 npredictors; s16 book[1]; // size 8 * order * npredictors. 8-byte aligned }; struct AudioBankSample { u8 unused; u8 loaded; u8 *sampleAddr; struct AdpcmLoop *loop; struct AdpcmBook *book; u32 sampleSize; // never read. either 0 or 1 mod 9, depending on padding }; struct AudioBankSound { struct AudioBankSample *sample; f32 tuning; // frequency scale factor }; // size = 0x8 struct Instrument { /*0x00*/ u8 loaded; /*0x01*/ u8 normalRangeLo; /*0x02*/ u8 normalRangeHi; /*0x03*/ u8 releaseRate; /*0x04*/ struct AdsrEnvelope *envelope; /*0x08*/ struct AudioBankSound lowNotesSound; /*0x10*/ struct AudioBankSound normalNotesSound; /*0x18*/ struct AudioBankSound highNotesSound; }; // size = 0x20 struct Drum { u8 releaseRate; u8 pan; u8 loaded; struct AudioBankSound sound; struct AdsrEnvelope *envelope; }; struct AudioBank { struct Drum **drums; struct Instrument *instruments[1]; }; // dynamic size struct CtlEntry { u8 unused; u8 numInstruments; u8 numDrums; struct Instrument **instruments; struct Drum **drums; }; // size = 0xC struct M64ScriptState { u8 *pc; u8 *stack[4]; u8 remLoopIters[4]; u8 depth; }; // size = 0x1C struct SequencePlayer { /*US/JP, EU */ #ifdef VERSION_EU /*0x000, 0x000*/ u8 enabled : 1; #else /*0x000, 0x000*/ volatile u8 enabled : 1; #endif /*0x000, 0x000*/ u8 finished : 1; // never read /*0x000, 0x000*/ u8 muted : 1; /*0x000, 0x000*/ u8 seqDmaInProgress : 1; /*0x000, 0x000*/ u8 bankDmaInProgress : 1; #ifdef VERSION_EU /* 0x000*/ u8 recalculateVolume : 1; #endif #ifndef VERSION_EU /*0x001 */ s8 seqVariation; #endif /*0x002, 0x001*/ u8 state; /*0x003, 0x002*/ u8 noteAllocPolicy; /*0x004, 0x003*/ u8 muteBehavior; /*0x005, 0x004*/ u8 seqId; /*0x006, 0x005*/ u8 defaultBank[1]; // must be an array to get a comparison // to match; other u8's might also be part of that array /*0x007, 0x006*/ u8 loadingBankId; #ifndef VERSION_EU /*0x008, ?????*/ u8 loadingBankNumInstruments; /*0x009, ?????*/ u8 loadingBankNumDrums; #endif #ifdef VERSION_EU /* , 0x007*/ s8 seqVariationEu[1]; #endif /*0x00A, 0x008*/ u16 tempo; // beats per minute in JP, tatums per minute in US/EU /*0x00C, 0x00A*/ u16 tempoAcc; #ifndef VERSION_EU /*0x00E, 0x010*/ u16 fadeTimer; #endif /*0x010, 0x00C*/ s16 transposition; /*0x012, 0x00E*/ u16 delay; #ifdef VERSION_EU /*0x00E, 0x010*/ u16 fadeTimer; /* , 0x012*/ u16 fadeTimerUnkEu; #endif /*0x014, 0x014*/ u8 *seqData; // buffer of some sort /*0x018, 0x018*/ f32 fadeVolume; // set to 1.0f /*0x01C, 0x01C*/ f32 fadeVelocity; // set to 0.0f /*0x020, 0x020*/ f32 volume; // set to 0.0f /*0x024, 0x024*/ f32 muteVolumeScale; // set to 0.5f #ifdef VERSION_EU /* , 0x028*/ f32 fadeVolumeScale; /* , 0x02C*/ f32 appliedFadeVolume; #else /* */ u8 pad2[4]; #endif /*0x02C, 0x030*/ struct SequenceChannel *channels[CHANNELS_MAX]; /*0x06C, 0x070*/ struct M64ScriptState scriptState; /*0x088, 0x08C*/ u8 *shortNoteVelocityTable; /*0x08C, 0x090*/ u8 *shortNoteDurationTable; /*0x090, 0x094*/ struct NotePool notePool; /*0x0D0, 0x0D4*/ OSMesgQueue seqDmaMesgQueue; /*0x0E8, 0x0EC*/ OSMesg seqDmaMesg; /*0x0EC, 0x0F0*/ OSIoMesg seqDmaIoMesg; /*0x100, 0x108*/ OSMesgQueue bankDmaMesgQueue; /*0x118, 0x120*/ OSMesg bankDmaMesg; /*0x11C, 0x124*/ OSIoMesg bankDmaIoMesg; /*0x130, 0x13C*/ u8 *bankDmaCurrMemAddr; #ifndef VERSION_EU /*0x134, ?????*/ struct AudioBank *loadingBank; #endif /*0x138, 0x140*/ uintptr_t bankDmaCurrDevAddr; /*0x13C, 0x144*/ ssize_t bankDmaRemaining; /* ext */ f32 volumeScale; }; // size = 0x140, 0x148 on EU struct AdsrSettings { u8 releaseRate; #ifdef VERSION_EU u8 sustain; #else u16 sustain; // sustain level, 2^16 = max #endif struct AdsrEnvelope *envelope; }; // size = 0x8 struct AdsrState { /*0x00, 0x00*/ u8 action; /*0x01, 0x01*/ u8 state; #ifndef VERSION_EU /*0x02, */ s16 initial; // always 0 /*0x04, */ s16 target; /*0x06, */ s16 current; #endif /*0x08, 0x02*/ s16 envIndex; /*0x0A, 0x04*/ s16 delay; #ifdef VERSION_EU /* , 0x08*/ f32 sustain; /* , 0x0C*/ f32 velocity; /* , 0x10*/ f32 fadeOutVel; /* , 0x14*/ f32 current; /* , 0x18*/ f32 target; s32 pad1C; #else /*0x0C, */ s16 sustain; /*0x0E, */ s16 fadeOutVel; /*0x10, */ s32 velocity; /*0x14, */ s32 currentHiRes; /*0x18, */ s16 *volOut; #endif /*0x1C, 0x20*/ struct AdsrEnvelope *envelope; }; // size = 0x20, 0x24 in EU struct NoteAttributes { s8 reverb; #ifdef VERSION_EU u8 pan; #endif f32 freqScale; f32 velocity; #ifndef VERSION_EU f32 pan; #endif }; // size = 0x10 struct SequenceChannel { /* U/J, EU */ /*0x00, 0x00*/ u8 enabled : 1; /*0x00, 0x00*/ u8 finished : 1; /*0x00, 0x00*/ u8 stopScript : 1; /*0x00, 0x00*/ u8 stopSomething2 : 1; // sets SequenceChannelLayer.stopSomething /*0x00, 0x00*/ u8 hasInstrument : 1; /*0x00, 0x00*/ u8 stereoHeadsetEffects : 1; /*0x00, ????*/ u8 largeNotes : 1; // notes specify duration and velocity /*0x00, ????*/ u8 unused : 1; // never read, set to 0 #ifdef VERSION_EU /* , 0x01*/ union { struct { u8 freqScale : 1; u8 volume : 1; u8 pan : 1; } as_bitfields; u8 as_u8; } changes; #endif /*0x01, 0x02*/ u8 noteAllocPolicy; /*0x02, 0x03*/ u8 muteBehavior; /*0x03, 0x04*/ u8 reverb; // or dry/wet mix /*0x04, ????*/ u8 notePriority; // 0-3 /*0x05, 0x06*/ u8 bankId; #ifdef VERSION_EU /* , 0x07*/ u8 reverbIndex; /* , 0x08*/ u8 bookOffset; /* , 0x09*/ u8 newPan; /* , 0x0A*/ u8 panChannelWeight; // proportion of pan that comes from the channel (0..128) #else /*0x06, */ u8 updatesPerFrameUnused; #endif /*0x08, 0x0C*/ u16 vibratoRateStart; // initially 0x800 /*0x0A, 0x0E*/ u16 vibratoExtentStart; /*0x0C, 0x10*/ u16 vibratoRateTarget; // initially 0x800 /*0x0E, 0x12*/ u16 vibratoExtentTarget; /*0x10, 0x14*/ u16 vibratoRateChangeDelay; /*0x12, 0x16*/ u16 vibratoExtentChangeDelay; /*0x14, 0x18*/ u16 vibratoDelay; /*0x16, 0x1A*/ u16 delay; /*0x18, 0x1C*/ s16 instOrWave; // either 0 (none), instrument index + 1, or // 0x80..0x83 for sawtooth/triangle/sine/square waves. /*0x1A, 0x1E*/ s16 transposition; /*0x1C, 0x20*/ f32 volumeScale; /*0x20, 0x24*/ f32 volume; #ifndef VERSION_EU /*0x24, */ f32 pan; /*0x28, */ f32 panChannelWeight; // proportion of pan that comes from the channel (0..1) #else /* , 0x28*/ s32 pan; /* , 0x2C*/ f32 appliedVolume; #endif /*0x2C, 0x30*/ f32 freqScale; /*0x30, 0x34*/ u8 (*dynTable)[][2]; /*0x34, ????*/ struct Note *noteUnused; // never read /*0x38, ????*/ struct SequenceChannelLayer *layerUnused; // never read /*0x3C, 0x40*/ struct Instrument *instrument; /*0x40, 0x44*/ struct SequencePlayer *seqPlayer; /*0x44, 0x48*/ struct SequenceChannelLayer *layers[LAYERS_MAX]; /*0x54, 0x58*/ s8 soundScriptIO[8]; // bridge between sound script and audio lib. For player 2, // [0] contains enabled, [4] contains sound ID, [5] contains reverb adjustment /*0x5C, 0x60*/ struct M64ScriptState scriptState; /*0x78, 0x7C*/ struct AdsrSettings adsr; /*0x80, 0x84*/ struct NotePool notePool; }; // size = 0xC0, 0xC4 in EU struct SequenceChannelLayer // Maybe SequenceTrack? { /* U/J, EU */ /*0x00, 0x00*/ u8 enabled : 1; /*0x00, 0x00*/ u8 finished : 1; /*0x00, 0x00*/ u8 stopSomething : 1; // ? /*0x00, 0x00*/ u8 continuousNotes : 1; // keep the same note for consecutive notes with the same sound #ifdef VERSION_EU /* , 0x00*/ u8 unusedEu0b8 : 1; /* , 0x00*/ u8 notePropertiesNeedInit : 1; /* , 0x00*/ u8 ignoreDrumPan : 1; /* , 0x01*/ u8 instOrWave; #endif /*0x01, 0x02*/ u8 status; /*0x02, 0x03*/ u8 noteDuration; // set to 0x80 /*0x03, 0x04*/ u8 portamentoTargetNote; #ifdef VERSION_EU /* , 0x05*/ u8 pan; // 0..128 /* , 0x06*/ u8 notePan; #endif /*0x04, 0x08*/ struct Portamento portamento; /*0x14, 0x18*/ struct AdsrSettings adsr; /*0x1C, 0x20*/ u16 portamentoTime; /*0x1E, 0x22*/ s16 transposition; // #semitones added to play commands // (m64 instruction encoding only allows referring to the limited range // 0..0x3f; this makes 0x40..0x7f accessible as well) /*0x20, 0x24*/ f32 freqScale; /*0x24, 0x28*/ f32 velocitySquare; #ifndef VERSION_EU /*0x28, */ f32 pan; // 0..1 #endif /*0x2C, 0x2C*/ f32 noteVelocity; #ifndef VERSION_EU /*0x30*/ f32 notePan; #endif /*0x34, 0x30*/ f32 noteFreqScale; /*0x38, 0x34*/ s16 shortNoteDefaultPlayPercentage; /*0x3A, 0x36*/ s16 playPercentage; // it's not really a percentage... /*0x3C, 0x38*/ s16 delay; /*0x3E, 0x3A*/ s16 duration; /*0x40, 0x3C*/ s16 delayUnused; // set to 'delay', never read /*0x44, 0x40*/ struct Note *note; /*0x48, 0x44*/ struct Instrument *instrument; /*0x4C, 0x48*/ struct AudioBankSound *sound; /*0x50, 0x4C*/ struct SequenceChannel *seqChannel; /*0x54, 0x50*/ struct M64ScriptState scriptState; /*0x70, 0x6C*/ struct AudioListItem listItem; #ifdef VERSION_EU u8 pad2[4]; #endif }; // size = 0x80 #ifdef VERSION_EU struct NoteSynthesisState { /*0x00*/ u8 restart; /*0x01*/ u8 sampleDmaIndex; /*0x02*/ u8 prevHeadsetPanRight; /*0x03*/ u8 prevHeadsetPanLeft; /*0x04*/ u16 samplePosFrac; /*0x08*/ s32 samplePosInt; /*0x0C*/ struct NoteSynthesisBuffers *synthesisBuffers; /*0x10*/ s16 curVolLeft; /*0x12*/ s16 curVolRight; }; struct NotePlaybackState { /* U/J, EU */ /*0x04, 0x00*/ u8 priority; /* 0x01*/ u8 waveId; /* 0x02*/ u8 sampleCountIndex; /*0x08, 0x04*/ s16 adsrVolScale; /*0x18, 0x08*/ f32 portamentoFreqScale; /*0x1C, 0x0C*/ f32 vibratoFreqScale; /*0x28, 0x10*/ struct SequenceChannelLayer *prevParentLayer; /*0x2C, 0x14*/ struct SequenceChannelLayer *parentLayer; /*0x30, 0x18*/ struct SequenceChannelLayer *wantedParentLayer; /* , 0x1C*/ struct NoteAttributes attributes; /*0x54, 0x28*/ struct AdsrState adsr; /*0x74, 0x4C*/ struct Portamento portamento; /*0x84, 0x5C*/ struct VibratoState vibratoState; }; struct NoteSubEu { /*0x00*/ volatile u8 enabled : 1; /*0x00*/ u8 needsInit : 1; /*0x00*/ u8 finished : 1; /*0x00*/ u8 envMixerNeedsInit : 1; /*0x00*/ u8 stereoStrongRight : 1; /*0x00*/ u8 stereoStrongLeft : 1; /*0x00*/ u8 stereoHeadsetEffects : 1; /*0x00*/ u8 usesHeadsetPanEffects : 1; /*0x01*/ u8 reverbIndex : 3; /*0x01*/ u8 bookOffset : 3; /*0x01*/ u8 isSyntheticWave : 1; /*0x01*/ u8 hasTwoAdpcmParts : 1; /*0x02*/ u8 bankId; /*0x03*/ u8 headsetPanRight; /*0x04*/ u8 headsetPanLeft; /*0x05*/ u8 reverbVol; /*0x06*/ u16 targetVolLeft; /*0x08*/ u16 targetVolRight; /*0x0A*/ u16 resamplingRateFixedPoint; // stored as signed but loaded as u16 /*0x0C*/ union { s16 *samples; struct AudioBankSound *audioBankSound; } sound; }; struct Note { /* U/J, EU */ /*0xA4, 0x00*/ struct AudioListItem listItem; /* 0x10*/ struct NoteSynthesisState synthesisState; /*0x04, 0x30*/ u8 priority; /* 0x31*/ u8 waveId; /* 0x32*/ u8 sampleCountIndex; /*0x08, 0x34*/ s16 adsrVolScale; /*0x18, 0x38*/ f32 portamentoFreqScale; /*0x1C, 0x3C*/ f32 vibratoFreqScale; /*0x28, 0x40*/ struct SequenceChannelLayer *prevParentLayer; /*0x2C, 0x44*/ struct SequenceChannelLayer *parentLayer; /*0x30, 0x48*/ struct SequenceChannelLayer *wantedParentLayer; /* , 0x4C*/ struct NoteAttributes attributes; /*0x54, 0x58*/ struct AdsrState adsr; /*0x74, 0x7C*/ struct Portamento portamento; /*0x84, 0x8C*/ struct VibratoState vibratoState; u8 pad3[8]; /* , 0xB0*/ struct NoteSubEu noteSubEu; }; // size = 0xC0 #else struct vNote { /* U/J, EU */ /*0x00*/ volatile u8 enabled : 1; long long int force_structure_alignment; }; // size = 0xC0 struct Note { /* U/J, EU */ /*0x00*/ u8 enabled : 1; /*0x00*/ u8 needsInit : 1; /*0x00*/ u8 restart : 1; /*0x00*/ u8 finished : 1; /*0x00*/ u8 envMixerNeedsInit : 1; /*0x00*/ u8 stereoStrongRight : 1; /*0x00*/ u8 stereoStrongLeft : 1; /*0x00*/ u8 stereoHeadsetEffects : 1; /*0x01*/ u8 usesHeadsetPanEffects; /*0x02*/ u8 unk2; /*0x03*/ u8 sampleDmaIndex; /*0x04, 0x30*/ u8 priority; /*0x05*/ u8 sampleCount; // 0, 8, 16, 32 or 64 /*0x06*/ u8 instOrWave; /*0x07*/ u8 bankId; // in NoteSubEu on EU /*0x08*/ s16 adsrVolScale; /* */ u8 pad1[2]; /*0x0C, 0xB3*/ u16 headsetPanRight; /*0x0E, 0xB4*/ u16 headsetPanLeft; /*0x10*/ u16 prevHeadsetPanRight; /*0x12*/ u16 prevHeadsetPanLeft; /*0x14*/ s32 samplePosInt; /*0x18, 0x38*/ f32 portamentoFreqScale; /*0x1C, 0x3C*/ f32 vibratoFreqScale; /*0x20*/ u16 samplePosFrac; /*0x24*/ struct AudioBankSound *sound; /*0x28, 0x40*/ struct SequenceChannelLayer *prevParentLayer; /*0x2C, 0x44*/ struct SequenceChannelLayer *parentLayer; /*0x30, 0x48*/ struct SequenceChannelLayer *wantedParentLayer; /*0x34*/ struct NoteSynthesisBuffers *synthesisBuffers; /*0x38*/ f32 frequency; /*0x3C*/ u16 targetVolLeft; /*0x3E*/ u16 targetVolRight; /*0x40*/ u8 reverb; /*0x41*/ u8 unused1; // never read, set to 0x3f /*0x44*/ struct NoteAttributes attributes; /*0x54, 0x58*/ struct AdsrState adsr; /*0x74, 0x7C*/ struct Portamento portamento; /*0x84, 0x8C*/ struct VibratoState vibratoState; /*0x9C*/ s16 curVolLeft; /*0x9E*/ s16 curVolRight; /*0xA0*/ s16 reverbVol; /*0xA2*/ s16 unused2; // never read, set to 0 /*0xA4, 0x00*/ struct AudioListItem listItem; /* */ u8 pad2[0xc]; }; // size = 0xC0 #endif struct NoteSynthesisBuffers { s16 adpcmdecState[0x10]; s16 finalResampleState[0x10]; s16 mixEnvelopeState[0x28]; s16 panResampleState[0x10]; s16 panSamplesBuffer[0x20]; s16 dummyResampleState[0x10]; #ifndef VERSION_EU s16 samples[0x40]; #endif }; struct ReverbSettingsEU { u8 downsampleRate; u8 windowSize; // To be multiplied by 64 u16 gain; }; struct AudioSessionSettingsEU { u32 frequency; u8 unk1; // always 1 u8 maxSimultaneousNotes; u8 numReverbs; // always 1 u8 unk2; // always 0 struct ReverbSettingsEU *reverbSettings; u16 volume; u16 unk3; // always 0 u32 persistentSeqMem; u32 persistentBankMem; u32 temporarySeqMem; u32 temporaryBankMem; }; struct AudioSessionSettings { /*0x00*/ u32 frequency; /*0x04*/ u8 maxSimultaneousNotes; /*0x05*/ u8 reverbDownsampleRate; // always 1 /*0x06*/ u16 reverbWindowSize; /*0x08*/ u16 reverbGain; /*0x0A*/ u16 volume; /*0x0C*/ u32 persistentSeqMem; /*0x10*/ u32 persistentBankMem; /*0x14*/ u32 temporarySeqMem; /*0x18*/ u32 temporaryBankMem; }; // size = 0x1C struct AudioBufferParametersEU { /*0x00*/ s16 presetUnk4; // audio frames per vsync? /*0x02*/ u16 frequency; /*0x04*/ u16 aiFrequency; // ?16 /*0x06*/ s16 samplesPerFrameTarget; /*0x08*/ s16 maxAiBufferLength; /*0x0A*/ s16 minAiBufferLength; /*0x0C*/ s16 updatesPerFrame; /*0x0E*/ s16 samplesPerUpdate; /*0x10*/ s16 samplesPerUpdateMax; /*0x12*/ s16 samplesPerUpdateMin; /*0x14*/ f32 resampleRate; // contains 32000.0f / frequency /*0x18*/ f32 updatesPerFrameInv; // 1.0f / updatesPerFrame /*0x1C*/ f32 unkUpdatesPerFrameScaled; // 3.0f / (1280.0f * updatesPerFrame) }; struct EuAudioCmd { union { #if IS_BIG_ENDIAN struct { u8 op; u8 arg1; u8 arg2; u8 arg3; } s; #else struct { u8 arg3; u8 arg2; u8 arg1; u8 op; } s; #endif s32 first; } u; union { s32 as_s32; u32 as_u32; f32 as_f32; #if IS_BIG_ENDIAN u8 as_u8; s8 as_s8; #else struct { u8 pad0[3]; u8 as_u8; }; struct { u8 pad1[3]; s8 as_s8; }; #endif } u2; }; #endif // AUDIO_INTERNAL_H